Your search keyword '"Metallic Lead"' showing total 270 results

1. Air fabrication of SnO2 based planar perovskite solar cells with an efficiency approaching 20%: Synergistic passivation of multi-defects by choline chloride.

Author

Wang, Zhipeng, Li, Rui, Zhang, Mei, and Guo, Min

Subjects

*SOLAR cell efficiency, *METHYLAMMONIUM, *PHOTOVOLTAIC power systems, *CHOLINE chloride, *PASSIVATION, *PEROVSKITE, *TIN oxides

Abstract

Defects in the perovskite films impose a serious issue on the PCE and stability of the SnO 2 based planar perovskite solar cells (SP–PSCs). So far, most researches have focused on regulating the SnO 2 /perovskite interface to improve performance. However, defect passivation of the perovskite/HTM interface is more significant and potential. Herein, the non-toxic and cheap choline chloride was performed to passivate multiple defects of the MAPbI 3 /HTM interface in ambient atmosphere. An optimal PCE of 19.93% (the average PCE was 18.60%) was obtained for the passivated device. Furthermore, the effect and mechanism of choline chloride on the humid and thermal stability of the SP-PSCs was investigated in detail. The passivated device without encapsulation retained 91% of its initial efficiency after 20 days in humid environment (20 ± 5 °C, 55 ± 5% RH) and 95% of the initial value under heating for 7 cycles (85 °C). Chloride ions with smaller radius and larger electronegativity formed stronger ionic bonding with Pb2+ to passivate I− vacancy defects, while choline ions passivated MA+ vacancies. This work not only provides guidance for fabrication of an efficient and stable device in air, but also opens an avenue to understanding of relation between stability and defects in the SP-PSCs. [ABSTRACT FROM AUTHOR]

Published

2022

2. Recovering metallic Pb directly from lead smelting dust by NaOH-carbon roasting process

Author

Jingxin Liu, Simian Huang, Kai Chen, Jinping Li, Teng Wang, and Meng Mei

Subjects

SKS lead smelting dust, Metallic lead, Recovery, Lead sulfate, NaOH–carbon roasting, Mining engineering. Metallurgy, TN1-997

Abstract

Systematic chemical and mineralogical analyses were conducted for the dust generated in the Shuikoushan (SKS) lead smelting process, based on the results, an alternative strategy of direct metallic Pb recovery was proposed using NaOH–carbon roasting process. The reduction thermodynamics of PbSO4 was discussed, and the influencing parameters, including NaOH/dust mass ratio, carbon/dust mass ratio, roasting temperature and roasting time, were investigated systematically by experiments. The results indicated that increasing in the operation conditions was beneficial for the improved Pb recovery rate, and the reaction mechanism in this study was presumed as PbSO4→ C PbS→ NaOH Pb. The optimal conditions were determined as NaOH/dust mass ratio of 1.0, carbon/dust mass ratio of 0.2, roasting temperature of 650 °C and roasting time of 180 min. Under these conditions, 87.33% of Pb in the dust was directly recovered as metal pellets, gathering 96.48% of Bi, and 97.06% of As was converted into the alkali solution, while Zn and Cd were retained in the leaching residue. This process is clean and environmentally friendly for recovery of secondary resources bearing high content of PbSO4.

Published

2020

3. Mixed Organic Cations Promote Ambient Light-Induced Formation of Metallic Lead in Lead Halide Perovskite Crystals

Author

Ray, A, Martín-García, B, Prato, M, Moliterni, A, Bordignon, S, Spirito, D, Marras, S, Goldoni, L, Boopathi, K, Moro, F, Casati, N, Giacobbe, C, Saidaminov, M, Giannini, C, Chierotti, M, Krahne, R, Manna, L, Abdelhady, A, Boopathi, KM, Casati, NPM, Saidaminov, MI, Chierotti, MR, Abdelhady, AL, Ray, A, Martín-García, B, Prato, M, Moliterni, A, Bordignon, S, Spirito, D, Marras, S, Goldoni, L, Boopathi, K, Moro, F, Casati, N, Giacobbe, C, Saidaminov, M, Giannini, C, Chierotti, M, Krahne, R, Manna, L, Abdelhady, A, Boopathi, KM, Casati, NPM, Saidaminov, MI, Chierotti, MR, and Abdelhady, AL

Abstract

One major concern toward the performance and stability of halide perovskite-based optoelectronic devices is the formation of metallic lead that promotes nonradiative recombination of charge carriers. The origin of metallic lead formation is being disputed whether it occurs during the perovskite synthesis or only after light, electron, or X-ray beam irradiation or thermal annealing. Here, we show that the quantity of metallic lead detected in perovskite crystals depends on the concentration and composition of the precursor solution. Through a controlled crystallization process, we grew black-colored mixed dimethylammonium (DMA)/methylammonium (MA) lead tribromide crystals. The black color is suggested to be due to the presence of small lead clusters. Despite the unexpected black coloring, the crystals show higher crystallinity and less defect density with respect to the standard yellow-colored DMA/MAPbBr3 crystals, as indicated by X-ray rocking curve and dark current measurements, respectively. While the formation of metallic lead could still be induced by external factors, the precursor solution composition and concentration can facilitate the formation of metallic lead during the crystallization process. Our results indicate that additional research is required to fully understand the perovskite precursor solution chemistry.

Published

2023

4. Complexation and conformation of lead ion with poly-γ-glutamic acid in soluble state.

Author

Wang, Lingling, Liu, Yamin, Shu, Xiulin, Lu, Shunying, Xie, Xiaobao, and Shi, Qingshan

Subjects

*GLUTAMIC acid, *IONS, *PHYSICAL & theoretical chemistry, *MATERIALS science, *BINDING sites, *ANALYTICAL chemistry, *MICROBIAL exopolysaccharides

Abstract

Complexation of microbial polymer in soluble state could impact the solubility, mobility, and bioavailability of heavy metals in the environment. The complexation of a bacterial exopolymer, poly-γ-glutamic acid (γ-PGA), with Pb2+ was studied using the polarographic method and circular dichroism measurement in soluble state. The number of available binding sites was determined based on the Chau’s method and was found to be 0.04, 1.12, 3.56 and 4.51 mmol/(g dry weight of γ-PGA) at pH 3.4, 4.2, 5.0 and 6.2, respectively. Further, the number of binding sites was determined based on the Ruzic’s method and was found to be 3.60 and 4.41 mmol/(g dry weight of γ-PGA) for pH 5.0 and 6.2, respectively. The constant (expressed as log K) values were 5.8 and 6.0 at pH 5.0 and 6.2. Compared to biopolymers secreted by other microorganisms, such as extracellular polymeric substances extraction from activated sludge, γ-PGA was a more efficient Pb2+ carrier from pH 5.0 to 6.2. The secondary structure of γ-PGA varied significantly when Pb2+ added. Ca2+ or Mg2+ replace a portion of the adsorbed Pb2+. However, the portion of Pb2+ involved in changing the γ-PGA conformation was not easily replaced by Ca2+ and Mg2+. [ABSTRACT FROM AUTHOR]

Published

2019

5. How does the content of nutrients in soil affect the health status of trees in city parks?

Author

Kleiber, Tomasz, Krzyżaniak, Michał, Świerk, Dariusz, Haenel, Anna, and Gałecka, Sylwia

Subjects

*URBAN trees, *FISHER discriminant analysis, *CHESTNUT, *URBAN parks, *SOIL composition

Abstract

Trees have multi-aspect influence on the microclimate in urbanised areas. Therefore, it is important to investigate the biotic and abiotic factors affecting their health. The aim of the conducted study was to assess the chemical composition of soils and the nutritional status of lime and horse chestnut trees in selected sites and the influence of these factors on the condition and health of these tree species in urbanised areas. The research was conducted on selected trees (n = 643) growing in different parts of the city. The soils and plants were analysed for the content of macro- and microelements, sodium and heavy metals. A canonical variation analysis (CVA)–the canonical variant of Fisher's linear discriminant analysis (LDA) was used to construct the model. The CVA enabled the creation of 4 CCA models. The research showed that in general, the soil in all the sites of lime and horse chestnut trees was alkalised–at the same time it was characterised by low salinity. Despite the alkaline soil the statistical analysis showed a positive correlation between the content of manganese in the lime leaves and the deterioration of their health. In spite of that due to the satisfactory health status and condition of trees in most locations temporary guide values of nutrients were proposed for trees growing in urbanised areas. The following temporary guide values of nutrients were proposed for the horse chestnut trees (% d. m.): N 2.38%-4.71%, P 0.24%-0.46%, K 1.13%-2.31%, Ca 1.05%-2.12%, Mg 0.16%-0.42%, S 0.12%-0.23%; Fe 89.8–198.8, Zn 17.6–33.1, Cu 7.36–19.61 (mg kg-1 d. m.). The following temporary guide values were proposed for the small-leaved lime-trees (% d. m.): N 2.45%-3.22%, P 0.27%-0.42%, K 1.52%-2.86%, Ca 1.43%-2.02%, Mg 0.19%-0.35%, S 0.19%-0.25%; Fe 137.6–174.3, Zn 20.2–23.8, Cu 8.36–9.79 (mg kg-1 d. m.). [ABSTRACT FROM AUTHOR]

Published

2019

6. On the trail of Scandinavia’s early metallurgy: Provenance, transfer and mixing.

Author

Nørgaard, Heide W., Pernicka, Ernst, and Vandkilde, Helle

Subjects

*METALLURGY, *LEAD isotopes, *BIG data, *TRACE elements, *ISOTOPIC analysis, *BRONZE Age

Abstract

The rich and long-lasting Nordic Bronze Age was dependent throughout on incoming flows of copper and tin. The crucial turning point for the development of the NBA can be pinpointed as the second phase of the Late Neolithic (LN II, c. 2000–1700 BC) precisely because the availability and use of metal increased markedly at this time. But the precise provenance of copper reaching Scandinavia in the early second millennium is still unclear and our knowledge about the driving force leading to the establishment of the Bronze Age in southern Scandinavia is fragmentary and incomplete. This study, drawing on a large data set of 210 samples representing almost 50% of all existing metal objects known from this period in Denmark, uses trace element (EDXRF) and isotope analyses (MC-ICP-MS) of copper-based artifacts in combination with substantial typological knowledge to profoundly illuminate the contact directions, networks and routes of the earliest metal supplies. It also presents the first investigation of local recycling or mixing of metals originating from different ore regions. Both continuity and change emerge clearly in the metal-trading networks of the Late Neolithic to the first Bronze Age period. Artifacts in LN II consist mainly of high-impurity copper (so-called fahlore type copper), with the clear exception of British imports. Targeted reuse of foreign artifacts in local production is demonstrated by the presence of British metal in local-style axes. The much smaller range of lead isotope ratios among locally crafted compared to imported artifacts is also likely due to mixing. In the latter half of Nordic LN II (1800–1700 BC), the first signs emerge of a new and distinct type of copper with low impurity levels, which gains enormously in importance later in NBA IA. [ABSTRACT FROM AUTHOR]

Published

2019

7. Blood lead level in infants and subsequent risk of malaria: A prospective cohort study in Benin, Sub-Saharan Africa.

Author

Garrison, Amanda, Khoshnood, Babak, Courtin, David, Milet, Jacqueline, Garcia, André, Massougbodji, Achille, Ayotte, Pierre, Cot, Michel, and Bodeau-Livinec, Florence

Subjects

*LEAD toxicology, *MALARIA, *LONGITUDINAL method, *COHORT analysis, *INFANTS, *IRON deficiency, *REGRESSION analysis

Abstract

Lead and malaria both present significant health risks to children in Sub-Saharan Africa. Previous studies have shown that high blood lead levels in children act as a protective factor against subsequent malaria incidence. The main objective of this study was to investigate associations between blood lead level and malaria outcomes prospectively in Beninese children from 12 to 24 months of age. Two-hundred and four children were assessed for lead at 12 months and closely followed until 24 months for malaria; when symptoms and parasite density were also recorded. Univariate and multivariate negative binomial and linear regression models tested associations between blood lead level quartile and total episodes of malaria (total symptomatic and asymptomatic episodes) and parasite density, respectively. Median blood lead level among children measured at 12 months was 56.50 (4.81–578) μg/L. During the 12-month follow-up, 172 (84.31%) children had at least one malaria episode. Univariate and multivariate negative binomial and linear regressions did not reveal significant associations between blood lead level quartile and malaria outcomes. Iron deficiency was not found to be an effect modifier. Results from this prospective child-cohort study investigating associations between blood lead level and malaria did not confirm results from previous cross-sectional studies. Further research is needed to further explore this relationship and other co-morbidities due to malaria and lead. [ABSTRACT FROM AUTHOR]

Published

2019

8. Isotope systematics and chemical composition of tin ingots from Mochlos (Crete) and other Late Bronze Age sites in the eastern Mediterranean Sea: An ultimate key to tin provenance?

Author

Berger, Daniel, Soles, Jeffrey S., Giumlia-Mair, Alessandra R., Brügmann, Gerhard, Galili, Ehud, Lockhoff, Nicole, and Pernicka, Ernst

Subjects

*PROVENANCE (Geology), *BRONZE Age, *TIN, *INGOTS, *GEOLOGICAL modeling, *LEAD isotopes

Abstract

The origin of the tin used for the production of bronze in the Eurasian Bronze Age is still one of the mysteries in prehistoric archaeology. In the past, numerous studies were carried out on archaeological bronze and tin objects with the aim of determining the sources of tin, but all failed to find suitable fingerprints. In this paper we investigate a set of 27 tin ingots from well-known sites in the eastern Mediterranean Sea (Mochlos, Uluburun, Hishuley Carmel, Kfar Samir south, Haifa) that had been the subject of previous archaeological and archaeometallurgical research. By using a combined approach of tin and lead isotopes together with trace elements it is possible to narrow down the potential sources of tin for the first time. The strongly radiogenic composition of lead in the tin ingots from Israel allows the calculation of a geological model age of the parental tin ores of 291 ± 17 Ma. This theoretical formation age excludes Anatolian, central Asian and Egyptian tin deposits as tin sources since they formed either much earlier or later. On the other hand, European tin deposits of the Variscan orogeny agree well with this time span so that an origin from European deposits is suggested. With the help of the tin isotope composition and the trace elements of the objects it is further possible to exclude many tin resources from the European continent and, considering the current state of knowledge and the available data, to conclude that Cornish tin mines are the most likely suppliers for the 13th–12th centuries tin ingots from Israel. Even though a different provenance seems to be suggested for the tin from Mochlos and Uluburun by the actual data, these findings are of great importance for the archaeological interpretation of the trade routes and the circulation of tin during the Late Bronze Age. They demonstrate that the trade networks between the eastern Mediterranean and some place in the east that are assumed for the first half of the 2nd millennium BCE (as indicated by textual evidence from Kültepe/Kaneš and Mari) did not exist in the same way towards the last quarter of the millennium. [ABSTRACT FROM AUTHOR]

Published

2019

9. Tungsten filled 3D printed field shaping devices for electron beam radiation therapy.

Author

Skinner, Lawrie, Fahimian, Benjamin P., and Yu, Amy S.

Subjects

*RADIOTHERAPY, *TUNGSTEN, *IONIZATION chambers, *LINEAR accelerators, *BALL bearings, *LEAD alloys, *ELECTRON beams

Abstract

Purpose: Electron radiotherapy is a labor-intensive treatment option that is complicated by the need for field shaping blocks. These blocks are typically made from casting Cerrobend alloys containing lead and cadmium. This is a highly toxic process with limited precision. This work aims to provide streamlined and more precise electron radiotherapy by 3D using printing techniques. Methods: The 3D printed electron cutout consists of plastic shells filled with 2 mm diameter tungsten ball bearings. Five clinical Cerrobend defined field were compared to the planned fields by measuring the light field edge when mounted in the electron applicator on a linear accelerator. The dose transmitted through the 3D printed and Cerrobend cutouts was measured using an IC profiler ion chamber array with 6 MeV and 16 MeV beams. Dose profiles from the treatment planning system were also compared to the measured dose profiles. Centering and full width half maximum (FWHM) metrics were taken directly from the profiler software. Results: The transmission of a 16MeV beam through a 12 mm thick layer of tungsten ball bearings agreed within 1% of a 15 mm thick Cerrobend block (measured with an ion chamber array). The radiation fields shaped by ball bearing filled 3D printed cutout were centered within 0.4 mm of the planned outline, whereas the Cerrobend cutout fields had shift errors of 1–3 mm, and shape errors of 0.5–2 mm. The average shift of Cerrobend cutouts was 2.3 mm compared to the planned fields (n = 5). Beam penumbra of the 3D printed cutouts was found to be equivalent to the 15 mm thick Cerrobend cutout. The beam profiles agreed within 1.2% across the whole 30 cm profile widths. Conclusions: This study demonstrates that with a proper quality assurance procedure, 3D-printed cutouts can provide more accurate electron radiotherapy with reduced toxicity compared to traditional Cerrobend methods. [ABSTRACT FROM AUTHOR]

Published

2019

10. Inter-rater reliability of vehicle color perception for forensic intelligence.

Author

Lee, Khai, Abdul Fatah, Anis Amanina, Mohd Norizan, Nuryuhanis, Jefrey, Zakiah, Md Nawi, Fatin Hanani, Wan Nor, Wan Fatihah Khairunisa, Wong, Huan Xin, Mohd Ali, Saiful Fazamil, Lim, Poh Ying, Chang, Kah Haw, and Abdullah, Ahmad Fahmi Lim

Subjects

*COLOR vision, *COLORS, *TRAFFIC accidents, *FORENSIC sciences, *SENSORY perception, *RELIABILITY in engineering

Abstract

The topcoat color of motor vehicles offers vital information while investigating vehicular accidents, especially in instance of hit-and-run, since witnesses seldom perceive and retain the plate details. Differences in color perceptions among individuals with normal vision may lead to confusion in determining the color of the car involved. In this way, witnesses of crash accidents could potentially initiate flawed leads in forensic investigation, and thus affect the administration of justice. In this study, the inter-rater reliability of vehicle color determination by different volunteers was explored. Six individuals observed the topcoat colors of 500 stationary and 500 moving vehicles from five locations, employing a common system of color gradation. The outcome was binary: the vehicle color was either a “match” or “non-match”. This was followed by statistical analysis in terms of the colors’ frequencies and inter-rater reliability, based on which more suitable color descriptions were determined for subsequent comparisons of stationary and moving vehicles. Higher match frequencies and greater inter-rater reliability were observed when color gradations were disregarded. The frequency of correct matches could have been closely related to their relative on-the-road distribution, regardless of the statuses of observed vehicles. It was also found that black and white were associated with a greater number of matches than were intermediate colors, which should be carefully interpreted during forensic investigation to avoid wrong leads. In conclusion, the present study demonstrated the forensic significance of vehicle topcoat color determination, particularly in cases where witness statements are crucial. [ABSTRACT FROM AUTHOR]

Published

2019

11. Blood heavy metals and brain-derived neurotrophic factor in the first trimester of pregnancy among migrant workers.

Author

Zaw, Ye Htet and Taneepanichskul, Nutta

Subjects

*FIRST trimester of pregnancy, *BRAIN-derived neurotrophic factor, *HEAVY metals, *MIGRANT labor, *HEAVY metal toxicology, *SECOND trimester of pregnancy

Abstract

Background: Lead, mercury, cadmium and arsenic are the priority heavy metals of major public health concern in industrialized countries. Exposure to them can cause cognitive impairment and depressive disorders through an effect on Brain-derived neurotrophic factor (BDNF) which is an important biomarker of pregnancy. Despite a number of prior studies on heavy metals pollution, there is few of studies on the effect of heavy metals on BDNF during early pregnancy. This study aims to examine the association between maternal blood heavy metals concentrations and BDNF during the first trimester pregnancy among Myanmar migrants in Thailand. Methodology: This cross sectional study, a part of ongoing birth cohort was conducted at the antenatal care clinic from June to October 2018. A total of 108 with Myanmar migrant pregnancy with a single viable fetus of 0 to 14 gestation weeks who stayed within the industrial plant at least 3 months before were recruited. Socio-demographic characteristics and health behaviors were accessed using a self-report questionnaire. Maternal blood heavy metals (lead (Pb), mercury (Hg), cadmium (Cd) and arsenic (As)) were measured using an inductively coupled plasma mass spectrometer and plasma BDNF was measured using an enzyme-linked immunosorbent assay. Multivariate binary logistic regression were modeled to access the association. Results: Median (interquartile rank: IQR) concentrations were: BDNF (6.49 (1.79) μg/ml), Pb (2.77 (1.46) μg/dL), Hg (0.62 (0.54) μg/dL), Cd (0.93(0.86) μg/L) and As (0.40 (0.11) μg/dL) respectively. We categorized BDNF concentrations into high (> median) (n = 54) and low (≤ median) (n = 54) groups. After adjusting for potential confounders, high blood total arsenic concentration had 2.6-fold increased odds (aOR = 2.603, 95% CI: 1.178, 5.751) of low plasma BDNF level as compared with low blood total arsenic group. However, there was no significant association between BDNF and Pb, Hg and Cd. Conclusions: The present findings demonstrate higher blood total arsenic level were more likely to have lower BDNF in early pregnancy. Our study suggested that heavy metal could be worsen BDNF level which plays its important role on biological effect of maternal depressive disorder and newborn neurodevelopment. [ABSTRACT FROM AUTHOR]

Published

2019

12. Role of the light fraction of soil organic matter in trace elements binding.

Author

Wiatrowska, Katarzyna and Komisarek, Jolanta

Subjects

*HUMUS, *TRACE elements, *TRACE metals, *SOIL pollution, *SOIL science, *MANURES

Abstract

The light fraction of soil organic matter (LF) has a rapid turnover and may be potentially metal-enriched, but the interaction between this pool of organic matter and trace elements has not been well studied. The present study aimed to investigate changes in LF content and its effect on heavy metals distribution and extractability in long-term contaminated soil by smelting activity. An incubation experiment was conducted on a surface horizon of Brunic Arenosol sampled from the previously-existing sanitary zone of Głogów smelter, for 450 days. The contaminated soil was divided into three combinations: with the addition of either triticate straw (at the dose of 4.5 Mg ha-1) or pig manure (at the dose of 40 Mg ha-1) or without any “foreign” organic materials (nil). The LF (ρ > 1.7 g cm-3) occurred to be metal-enriched and despite its low content (5.49%—nil, 7.18%—straw and 7.29%—manure combination) in the bulk soil, it was observed that initially Cd, Cu, Pb and Zn stock reached 16.2%, 11.9%, 18.0% and 32.3%, respectively. Incubation conditions where mineralization processes dominate led to a decrease in the LF share by about 12.6% in nil and 31.4–39.8% in the combinations with organic amendments. In consequence, the DOC (dissolved organic carbon) concentration doubled and metal distribution had changed. The increase in water-soluble (F1) fraction was observed for all metals, additionally for Cu, Pb, Zn in exchangeable fraction (F2) and in carbonate bound (F3) fraction for Cd and Zn. These results support the view that changes in the LF content may play a key role in controlling trace metals mobility, especially in long-term contaminated soil. [ABSTRACT FROM AUTHOR]

Published

2019

13. Playground lead levels in rubber, soil, sand, and mulch surfaces in Boston.

Author

Almansour, Khaled S., Arisco, Nicholas J., Woo, May K., Young, Anna S., Adamkiewicz, Gary, and Hart, Jaime E.

Subjects

*PLAYGROUNDS, *SYNTHETIC sporting surfaces, *LEAD & the environment, *LEAD abatement, *ENVIRONMENTAL justice

Abstract

Rubber surfacing is often used in playgrounds due to its potential injury prevention benefits and as a way to recycle waste tires. Available research on chemicals in recycled rubber has focused on synthetic turf applications, but is limited for playground rubber surfacing. Potential lead contamination from vulcanizing agents used in rubber surfacing are a possible concern; however this has not been researched. We examined levels of lead in poured-in-place rubber and compared them to levels in soil, sand, and wood mulch materials from 28 randomly selected playgrounds in Boston, MA, USA using X-ray fluorescence. To evaluate the association between material type and lead concentrations, we conducted a two-way ANOVA with repeated measures and built a linear regression model controlling for distance to major roadway, neighborhood-level status as an environmental justice area, peeling paint on the playground, and rubber condition. Average lead levels were 65.7 μg/g for soil, 22.0 μg/g for rubber, 8.5 μg/g for sand, and 9.0 μg/g for mulch. Our finding of lower concentrations of lead in sand and mulch compared to rubber and soil should be used to inform playground design to optimize children’s health, alongside other chemical and safety considerations. [ABSTRACT FROM AUTHOR]

Published

2019

14. The earliest lead ore processing in Europe. 5th millennium BC finds from Pietrele on the Lower Danube.

Author

Hansen, Svend, Montero-Ruiz, Ignacio, Rovira, Salvador, Steiniger, Daniel, and Toderaş, Meda

Subjects

*LEAD ores, *MATERIALS science, *COPPER Age, *GRAVE goods, *MICROSCOPY, *SLAG

Abstract

Eleven biconical vessels from the Copper Age sites Pietrele and Blejeşti (Romania) have been investigated using p-XRF. In most cases, traces of lead could be measured on their surfaces. Samples of slag-like material from two vessels and the clay of one vessel were investigated using laboratory methods, namely SEM, XRD, LIA and optical microscopy. The vessels were obviously used as a kind of crucible in which slag-like remains and galena ore were detected. It still remains unclear as to what final product was gained by smelting galena in this way. The amount of these such vessels in the Pietrele settlement, their appearance as grave goods in Pietrele and Vărăști (Romania), and their supposed occurrence in a number of other Copper Age settlements in Romania and Bulgaria show the significance of this phenomenon. It must have been a widespread and more or less well known practice, an important part of cultural habit during a particular period in the Lower Danube region and likely even farther afield. For the first time, extensive experimentation with lead ore can be shown in a clear chronological horizon, ca. 4400–4300 BCE in southeastern Europe. [ABSTRACT FROM AUTHOR]

Published

2019

15. Levels of trace elements and potential toxic elements in bovine livers: A trend analysis from 2007 to 2018.

Author

Counotte, Guillaume, Holzhauer, Menno, Carp-van Dijken, Sanne, Muskens, Jan, and Van der Merwe, Deon

Subjects

*SELENIUM, *TRACE elements, *LIVER analysis, *TREND analysis, *TRACE element analysis, *LEAD poisoning

Abstract

Trace elements and potential toxic elements were analyzed in bovine livers submitted for autopsy in the Netherlands during the years 2007 to 2018. The age of each animal was recorded. In total, 1544 livers were analyzed for cadmium, cobalt, chromium, copper, iron, molybdenum, nickel, lead, selenium and zinc. Less than 2% of the liver samples were from veal calves. Young animals had significantly higher concentrations of iron and zinc in their livers compared to animals older than one year, while older animals had significantly higher levels of cadmium and molybdenum in their livers. Animals aged 1 to 2 years had the lowest copper and selenium levels. There was a tendency for lower chromium and nickel levels during the last years of the testing period, while copper showed an increase. Lead intoxication was only seen in the youngest group of cattle, while copper intoxication, defined as a liver copper of more than 1000 mg/kg dry matter, occurred in older animals, mainly in animals of 3 to 4 years old. This trend analysis of trace elements in bovine livers of cattle over time in recent years, and the relation of liver element concentrations with age of the animal, provides insight in the uptake and storage of these elements by cattle in The Netherlands. Possible reasons for observed trends and age-related patterns are discussed. [ABSTRACT FROM AUTHOR]

Published

2019

16. Efficient removal of Pb(II) from aqueous solution by a novel ion imprinted magnetic biosorbent: Adsorption kinetics and mechanisms.

Author

He, Yayuan, Wu, Pian, Xiao, Wen, Li, Guiyin, Yi, Jiecan, He, Yafei, Chen, Cuimei, Ding, Ping, and Duan, Yanying

Subjects

*ADSORPTION kinetics, *MOLECULAR imprinting, *AQUEOUS solutions, *MAGNETIC ions, *FOURIER transform infrared spectroscopy, *X-ray photoelectron spectroscopy

Abstract

It is vital to understand the adsorption mechanisms and identify the adsorption kinetics when applying an adsorbent to remove heavy metals from aqueous solution. A Pb(II) imprinted magnetic biosorbent (Pb(II)-IMB) was developed for the removal of Pb2+ via lead ion imprinting technology and crosslinking reactions among chitosan (CTS), Serratia marcescens and Fe3O4. The effect of different parameters such as solution pH, adsorbent dosage, selectivity sorption and desorption were investigated on the absorption of lead ion by Pb(II)-IMB. The adsorbent was characterized by a Brunauer-Emmett Teller (BET) analysis, X-ray diffraction (XRD), vibrating sample magnetometry (VSM), scanning electron microscopy (SEM) and energy dispersive spectrometry (EDS). The adsorption kinetics, equilibrium and thermodynamics of Pb(II)-IMB for Pb(II) were studied. The results of the abovementioned analyses showed that the adsorption kinetic process fit well with the second-order equation. The adsorption isotherm process of Pb(II) on the Pb(II)-IMB was closely related to the Langmuir model. Thermodynamic studies suggested the spontaneous and endothermic nature of adsorption of Pb(II) by Pb(II)-IMB. The adsorption mechanism of Pb(II)-IMB was studied by Fourier transform infrared spectroscopy (FTIR) and X-ray photoelectron spectroscopy (XPS). The results indicated that the nitrogen in the amino group and the oxygen in the hydroxyl group of Pb(II)-IMB were coordination atoms. [ABSTRACT FROM AUTHOR]

Published

2019

17. Interest in “organic,” “natural,” and “additive-free” cigarettes after hearing about toxic chemicals in cigarette smoke.

Author

Baig, Sabeeh A., Byron, M. Justin, Pepper, Jessica K., and Brewer, Noel T.

Subjects

*CIGARETTE smoke, *SMOKING prevention, *HYDROCYANIC acid, *TOBACCO products, *INDUSTRIAL hygiene

Abstract

Introduction: The US Family Smoking Prevention and Tobacco Control Act requires the government to disseminate information about the toxic chemicals in cigarette smoke. We sought to understand how the descriptors “organic,” “natural,” or “additive-free” affect smokers’ interest in cigarettes in the context of information about chemicals in cigarette smoke. Methods: Participants were a national probability sample of 1,101 US adult (ages ≥18) smokers recruited in 2014–2015. A between-subjects experiment randomized participants in a telephone survey to 1 of 4 cigarette descriptors: “organic,” “natural,” “additive-free,” or “ultra-light” (control). The outcome was expected interest in cigarettes with the experimentally assigned descriptor, after learning that 2 chemicals (hydrogen cyanide and lead) are in cigarette smoke. Experimental data analysis was conducted in 2016–2017. Results: Smokers indicated greater expected interest in “organic,” “natural,” and “additive-free” cigarettes than “ultra-light” cigarettes (all p <.001) after learning that hydrogen cyanide and lead were in cigarette smoke. Smokers who intended to quit in the next 6 months expressed greater expected interest in the 4 types of cigarettes (“organic,” “natural,” “additive-free,” and “ultra-light”) compared to smokers not intending to quit (p <.001). Conclusions: Smokers, especially those intending to quit, may be more inclined towards cigarettes described as “organic,” “natural,” and “additive-free” in the context of chemical information. An accumulating body of evidence shows that the US should fully restrict use of “organic” and “natural” descriptors for tobacco products as it has done for “additive-free” and “light” descriptors. [ABSTRACT FROM AUTHOR]

Published

2019

18. Trace metals in Northern New England streams: Evaluating the role of road salt across broad spatial scales with synoptic snapshots.

Author

Wilhelm, Jessica F., Bain, Daniel J., Green, Mark B., Bush, Kathleen F., and McDowell, William H.

Subjects

*TRACE metals, *WATER, *CHLORIDES, *ZINC, *ECOSYSTEM health

Abstract

Mobilization of trace metals from soils to surface waters can impact both human and ecosystem health. This study resamples a water sample archive to explore the spatial pattern of streamwater total concentrations of arsenic, cadmium, copper, lead, and zinc and their associations with biogeochemical controls in northern New England. Road deicing appears to result in elevated trace metal concentrations, as trace metal concentrations are strongly related to sodium concentrations and are most elevated when the sodium: chloride ratio is near 1.0 (~halite). Our results are consistent with previous laboratory and field studies that indicate cation exchange as a metal mobilization mechanism when road salt is applied to soils containing metals. This study also documents associations among sodium, chloride, dissolved organic carbon, iron, and metal concentrations, suggesting cation exchange mechanisms related to road deicing are not the only mechanisms that increase trace metal concentrations in surface waters. In addition to cation exchange, this study considers dissolved organic carbon complexation and oxidation-reduction conditions affecting metal mobility from soils in a salt-rich environment. These observations demonstrate that road deicing has the potential to increase streamwater trace metal concentrations across broad spatial scales and increase risks to human and ecosystem health. [ABSTRACT FROM AUTHOR]

Published

2019

19. Determination of lead levels in maternal and umbilical cord blood at birth at the Lagos University Teaching Hospital, Lagos.

Author

Ladele, Jejelola I., Fajolu, Iretiola Bamikeolu, and Ezeaka, Veronica Chinyere

Subjects

*CORD blood, *TEACHING hospitals, *ATOMIC absorption spectroscopy, *BLOOD sampling

Abstract

Background: Lead toxicity is a cause of intellectual disability in children and majority of affected children live in developing countries. Its adverse effect on pregnancy outcome has also been documented. Objectives: To assess the relationship between maternal blood lead levels and umbilical cord blood lead levels in their corresponding newborn infants; to determine factors associated with high blood lead levels and the pregnancy outcome in participants. Materials and methods: This was a cross-sectional descriptive study carried out at a tertiary Teaching Hospital, Lagos, Nigeria. Four hundred and forty pregnant women and their respective newborns delivered at the study centre. Blood samples were obtained from the mothers and umbilical cord of the newborns at delivery and analysed by atomic absorption spectrophotometry. Socio-demographic and obstetric data was obtained by questionnaires administered to the mothers. The anthropometric measurements of the babies were taken at birth and clinical data recorded. Main outcome measures were blood lead levels in mother and baby pair, socio-demographic factors, birth weight, gestational age, length, occipito-frontal circumference. Results: The median maternal and umbilical blood lead level was 64.3μg/dl and 39.2μg/dl respectively. The levels were above 5μg/dl in 75.6% and 66.8% of mothers and umbilical cord respectively. There was a strong positive correlation between the maternal and umbilical cord blood lead levels (rs = 0.80). Use of calcium supplements during pregnancy was significantly associated with a lower maternal blood lead level (p = 0.010) while recent painting and renovation of residential accommodation were associated with a higher umbilical cord blood lead level (p = 0.025). There were no statistically significant associations between the maternal and umbilical cord blood lead levels and the gestational age and anthropometry of the newborns at birth. Conclusions: The blood lead levels in newborns of women residing in Lagos, Nigeria are high and administration of antenatal calcium is associated with lower blood lead levels. [ABSTRACT FROM AUTHOR]

Published

2019

20. Effects of acute exposures of 2,4,6-trinitrotoluene and inorganic lead on the fecal microbiome of the green anole (Anolis carolinensis).

Author

Indest, Karl J., Everman, Steven J., Lindsay, James H., Jung, Carina M., Smith, Jared C., and Newell, Sandra B.

Subjects

*HUMAN microbiota, *ECOLOGY, *TNT (Chemical), *EXPLOSIVES, *ORGANONITROGEN compounds

Abstract

Microbiome studies focused on ecologically relevant vertebrate models like reptiles have been limited. Because of their relatively small home range, fast maturation, and high fecundity, lizards are an excellent reptilian terrestrial indicator species. For this study we used the green anole, Anolis carolinensis, to assess the impact of military relevant contaminants on fecal microbiome composition. Fourteen day sub-acute exposures were conducted via oral gavage with 2,4,6-Trinitrotoluene (TNT) and inorganic lead at doses of 60 mg/kg and 20 mg/kg of body weight, respectively. Body weights and food consumption were monitored and fecal samples were collected for high-throughput 16S rRNA gene amplicon sequencing and analytical chemistry at days 0 and 15. At the end of the study, liver and gut were harvested for body burden data. Chemical analysis confirmed accumulation of TNT, TNT transformation products, and lead in liver tissue and fecal samples. Bacterial community analysis of fecal material revealed significant differences between day 0 and day 15 of TNT exposed anoles with an operational taxonomic unit (OTU) within the genus Erwinia representing 32% of the microbial community in TNT exposed anoles. Predictable changes in gut microbiome composition could offer an easily assayed, noninvasive biomarker for specific chemical exposure providing enhanced scientific support to risk assessments on military installations. [ABSTRACT FROM AUTHOR]

Published

2018

21. Characterization and mechanism of lead and zinc biosorption by growing Verticillium insectorum J3.

Author

Feng, Chong-ling, Li, Jin, Li, Xue, Li, Ke-lin, Luo, Kun, Liao, Xing-sheng, and Liu, Tao

Subjects

*FOURIER transform infrared spectroscopy, *MORPHOLOGY, *BIOACCUMULATION, *BIOCHEMISTRY, *BIOCONCENTRATION

Abstract

Verticillium insectorum J3 was isolated from a local lead-zinc deposit tailing, and its biosorption characteristics and reaction to the toxicities of different Pb(II) and Zn(II) concentrations were investigated. SEM, FTIR, a pH test and a desorption experiment were carried out to identify a possible mechanism. The biosorption of J3 presented an inhibition trend at low concentrations (25–75 mg L-1) and promotion at high concentrations (100–300 mg L-1). J3 absorbed Pb(II) prior to Zn(II) and produced alkaline substances, while mycelial and pellet morphology modifications were important for the removal of Pb(II) and Zn(II) under different stressful conditions (SEM results). Both intracellular accumulation and extracellular absorption may contribute to the removal of Pb(II) at lower concentrations (25–50 mg L-1), although mainly extracellular biosorption occurred at higher concentrations (75–300 mg L-1). However, Zn(II) bioaccumulation occurred at all concentrations assayed. Verticillium insectorum J3 may have evolved active defenses to alleviate the toxicity of heavy metals and proved to be a highly efficient biosorbent, especially for Pb(II) at high concentrations. This study is a useful reference for the development of biotreatment technologies to mitigate heavy metal waste. [ABSTRACT FROM AUTHOR]

Published

2018

22. Electronic Transport

Author

Kurth, Stefan, Marques, Miguel A.L., editor, Maitra, Neepa T., editor, Nogueira, Fernando M.S., editor, Gross, E.K.U., editor, and Rubio, Angel, editor

Published

2012

23. Influence of repeated contacts on the transfer of elemental metallic lead between compartments in an integrated conceptual model for dermal exposure assessment

Author

Gurumurthy Ramachandran, Susan Arnold, and J. Sahmel

Subjects

Male, integumentary system, Chemistry, Health, Toxicology and Mutagenesis, Metallic Lead, Environmental Exposure, Hand, Toxicology, Dermal exposure, Clothing, Lead, Transfer efficiency, Occupational Exposure, Transfer (computing), Steady state distribution, Nitriles, Skin surface, Biophysics, Humans, Female, Cotton Fiber, Gloves, Protective, Lead (electronics), Skin, Exposure assessment

Abstract

Transfer of contaminants to and from the skin surface has been postulated to occur through a number of different pathways and compartments including: object(s)-to-skin, skin-to-skin, skin-to-clothing, skin-to-gloves, air-to-skin, skin-to-lips, and skin-to-saliva. However, many identified transfer pathways have been only minimally examined to determine the potential for measurable transfer. The purpose of this study was to quantitatively evaluate repeated transfer between different compartments using elemental metallic lead (Pb) in the solid form using a series of systematic measurements in human subjects. The results demonstrated that some transfer pathways and compartments are significantly more important than others. Transfer of Pb could not be measured from skin to cotton clothing or skin to laminate countertop surfaces. However, transfer was consistently measured for skin-to-skin and between the skin and the surface of nitrile gloves, suggesting the potential for significant transfer to or from these compartments in real-world exposure scenarios, and the importance of these pathways. With repeated contacts, transfer increased non-linearly between 1 and 5 contacts, but appeared to approach a steady state distribution among the compartments within 10 contacts. Consistent with other studies, relative to 100% transfer for a single contact, the quantitative transfer efficiency decreased with repeated contacts to 29% after 5 contacts and 11-12% after 10 contacts; for skin-to-skin transfer measurements, transfer efficiency after either 5 or 10 contacts was approximately 50% of the single contact transfer. These data are likely to be useful for refining current approaches to modeling of repeated contacts for dermal exposure and risk assessment.

Published

2021

24. Corrosion Studies and Lead Isotope Analyses of Musket Balls from Scottish Battlefield Sites

Author

Hall, A. J., Ellam, R., Wilson, L., Pollard, T., Ferguson, N., and Turbanti-Memmi, Isabella, editor

Published

2011

25. IAA producing fungal endophyte Penicillium roqueforti Thom., enhances stress tolerance and nutrients uptake in wheat plants grown on heavy metal contaminated soils.

Author

Ikram, Muhammad, Ali, Niaz, Jan, Gul, Jan, Farzana Gul, Rahman, Inayat Ur, Iqbal, Amjad, and Hamayun, Muhammad

Subjects

*WHEAT seeds, *PENICILLIUM roqueforti, *INDOLEACETIC acid, *HEAVY metals, *CHLOROSIS (Plants)

Abstract

Heavy metals contaminated soil is a serious environmental concern that has a negative impact on agriculture and ecosystem. Economical and efficient ways are needed to address this problem worldwide. In this regard, exploration and application of proficient microbial strains that can help the crop plants to thrive in agricultural soils that are greatly contaminated with heavy metals. The present study mainly focused on the effect of IAA producing endophytic fungi Penicillium ruqueforti Thom., on wheat plants cultivated in soil rich in heavy metals (Ni, Cd, Cu, Zn, and Pb). P. ruqueforti has induced great resistance in wheat inoculated plants grown in heavy metal contaminated soil. Application of the isolated strain of P. ruqueforti restricted the transfer of heavy metals from soil to the plants by secreting indole acetic acid (IAA). Furthermore, P. ruqueforti inoculated wheat seedlings watered with waste water had higher plant growth, nutrient uptake and low concentrations of heavy metals in shoot and roots. On the contrary, non-inoculated wheat plants under heavy metal stress had stunted growth with symptoms of chlorosis. From the results, it is concluded that P. ruqueforti inoculation can establish a symbiotic relationship with host plants, which is useful for phytostabilization of heavy metals or in other words helping the host crops to flourish through soil that are highly contaminated with heavy metals. [ABSTRACT FROM AUTHOR]

Published

2018

26. The lead ores circulation in Central China during the early Western Han Dynasty: A case study with bronze vessels from the Gejiagou site.

Author

Chen, Dian, Luo, Wugan, Zeng, Qingshuo, and Cui, Benxin

Subjects

*LEAD ores, *BRONZE Age, *LEAD alloys, *INFORMATION theory, *COMPOSITE particles (Composite materials)

Abstract

This study first publishes lead isotope data of bronze vessels from Central China in Western Han Dynasty and attempts to find out the lead ores circulation of this time by taking bronzes from the Gejiagou site (Nanyang City, Henan Province) as an example. The elemental concentrations suggest the lead should be introduced on purpose and indicate the provenance information of lead ores. All the lead isotope ratios conform to the characteristics of common lead and most of them are similar to Nanyang local lead ores. The lead of another two bronzes, NY9 and NY13, should be imported from southern China. Combined with the historical background of early Western Han Dynasty, the wider range of the lead ore circulation may be an indicator for, as the loose policy, economic prosperity and transportation improvement. [ABSTRACT FROM AUTHOR]

Published

2018

27. Glucocorticoid measurement in plasma, urates, and feathers from California condors (Gymnogyps californianus) in response to a human-induced stressor.

Author

Glucs, Zeka E., Smith, Donald R., Tubbs, Christopher W., Jones Scherbinski, Jennie, Welch, Alacia, Burnett, Joseph, Clark, Michael, Eng, Curtis, and Finkelstein, Myra E.

Subjects

*VERTEBRATES, *GLUCOCORTICOIDS, *ADRENOCORTICAL hormones, *CORTICOSTERONE, *PHYSIOLOGICAL stress

Abstract

Vertebrates respond to stressful stimuli with the secretion of glucocorticoid (GC) hormones, such as corticosterone (CORT), and measurements of these hormones in wild species can provide insight into physiological responses to environmental and human-induced stressors. California condors (Gymnogyps californianus) are a critically endangered and intensively managed avian species for which information on GC response to stress is lacking. Here we evaluated a commercially available I125 double antibody radioimmunoassay (RIA) and an enzyme-linked immunosorbent assay (ELISA) kit for measurement of CORT and GC metabolites (GCM) in California condor plasma, urate, and feather samples. The precision and accuracy of the RIA assay outperformed the ELISA for CORT and GCM measurements, and CORT and GCM values were not comparable between the two assays for any sample type. RIA measurements of total CORT in condor plasma collected from 41 condors within 15 minutes of a handling stressor were highly variable (median = 70 ng/mL, range = 1–189 ng/mL) and significantly different between wild and captive condors (p = 0.02, two-tailed t-test, n = 10 wild and 11 captive). Urate GCM levels (median = 620 ng/g dry wt., range = 0.74–7200 ng/g dry wt., n = 216) significantly increased within 2 hr of the acute handling stressor (p = 0.032, n = 11 condors, one-tailed paired t-test), while feather section CORT concentrations (median = 18 pg/mm, range = 6.3–68 ng/g, n = 37) also varied widely within and between feathers. Comparison of multiple regression linear models shows condor age as a significant predictors of plasma CORT levels, while age, sex, and plasma CORT levels predicted GCM levels in urates collected within 30 min of the start of handling. Our findings highlight the need for validation when selecting an immunoassay for use with a new species, and suggest that non-invasively collected urates and feathers hold promise for assessing condor responses to acute or chronic environmental and human-induced stressors. [ABSTRACT FROM AUTHOR]

Published

2018

28. Lead Compounds

Author

Schoenung, Julie M., Shackelford, James F., editor, and Doremus, Robert H., editor

Published

2008

29. High-performance bimetallic In-Pb for electrocatalytic hydrogenation of levulinic acid.

Author

Zhang, Yunfei, Wang, Xilun, and Shen, Yi

Subjects

*BIMETALLIC catalysts, *HYDROGEN evolution reactions, *VALERIC acid, *LEAD, *HYDROGENATION, *ELECTROLYTIC reduction, *CHARGE transfer

Abstract

[Display omitted] • Bimetallic In-Pb catalysts were fabricated by pulsed electrodeposition. • Bimetallic catalysts exhibit better performance for ECH of LA than pure In or Pb. • In 72.4 Pb 27.6 /CF shows high selectivity toward valeric acid up to 99.7 %. • The In 72.4 Pb 27.6 /CF catalyst exhibits high electrochemical surface area and good stability. The challenge in the electrochemical reduction of levulinic acid (LA) lies in designing highly selective, energy-efficient, and non-precious-metal electrocatalysts that minimize the competitive hydrogen evolution reaction during LA conversion. Herein, we reported a facile pulsed electrodeposition strategy to fabricate bimetallic electrocatalysts with different combinations of lead (Pb), indium (In), tin, and cadmium supported by free-standing carbon felts (CFs). The as-prepared bimetallic self-supporting electrodes were examined for the electrochemical hydrogenation (ECH) of LA. The resulting InPb/CF electrocatalysts showed superior performance among the bimetallic catalysts. In addition, it was demonstrated that the catalytic performance of bimetallic samples was better than that of the corresponding monometallic samples. Notably, the In 72.4 Pb 27.6 /CF exhibited the best performance for ECH of LA, leading to 86.1 % of LA conversion, 99.7 % of selectivity towards valeric acid and 60.8 % of Faradaic efficiency at −1.5 V vs RHE. The excellent performance is mainly attributed to the modification of the electronic structures by the ligand and strain effects. Meanwhile, the relatively high electrochemically active surface area and the low charge transfer resistance are also conducive to improving the catalytic performance. [ABSTRACT FROM AUTHOR]

Published

2023

30. ELECTRONIC TRANSPORT IN NANOTUBES AND THROUGH JUNCTIONS OF NANOTUBES

Author

LAMBIN, PH., TRIOZON, F., MEUNIER, V., Popov, Valentin N., editor, and Lambin, Philippe, editor

Published

2006

31. Vacuum decomposition thermodynamics and experiments of recycled lead carbonate from waste lead acid battery

Author

Bo Yong, Baoqiang Xu, Tian Yang, Fei Wang, Neng Xiong, Bin Yang, Dachun Liu, and Wei Zhang

Subjects

waste lead acid battery, vacuum decomposition, Renewable Energy, Sustainability and the Environment, lcsh:Mechanical engineering and machinery, 020209 energy, Metallic Lead, Lead carbonate, Thermal decomposition, recycled lead carbonate, Thermodynamics, 02 engineering and technology, Reuse, Decomposition, thermodynamics, Vacuum furnace, chemistry.chemical_compound, Lead (geology), chemistry, 0202 electrical engineering, electronic engineering, information engineering, Environmental science, lcsh:TJ1-1570, Lead–acid battery

Abstract

Lead acid batteries have been widely used in different fields, so abundant waste lead acid battery was generated. Waste lead acid battery is regarded as a toxic material due to the metallic lead and the lead paste compounds. Once lead and its compounds enter the human body and the environment, which will cause serious threats. At present, the waste lead acid batteries are mainly recovered in the form of metal lead, which has many problems. Thus, this paper put forward a novel technology to recycle waste lead acid battery. Vacuum thermal decomposition was employed to treat recycled lead carbonate from waste lead acid battery. Thermodynamics analysis and experiments were finished from the reaction free energy of lead carbonate decomposition and vacuum furnace. The results showed that the recycled lead carbonate began to be decomposed when the temperature reached 250°C. Above 340°C, most of intermediate PbCO3•2PbO were converted to red α-PbO and then transformed to yellow β-PbO when the temperature was raised further to 460°C. Furthermore, the study provided the fundamental data for the preparation of α-PbO and β-PbO in vacuum, which also demonstrated a new way for the reuse of spent lead acid battery resource and an outlook of sustainable production.

Published

2021

32. Mixed Organic Cations Promote Ambient Light-Induced Formation of Metallic Lead in Lead Halide Perovskite Crystals.

Author

Ray A, Martín-García B, Prato M, Moliterni A, Bordignon S, Spirito D, Marras S, Goldoni L, Boopathi KM, Moro F, Casati NPM, Giacobbe C, Saidaminov MI, Giannini C, Chierotti MR, Krahne R, Manna L, and Abdelhady AL

Abstract

One major concern toward the performance and stability of halide perovskite-based optoelectronic devices is the formation of metallic lead that promotes nonradiative recombination of charge carriers. The origin of metallic lead formation is being disputed whether it occurs during the perovskite synthesis or only after light, electron, or X-ray beam irradiation or thermal annealing. Here, we show that the quantity of metallic lead detected in perovskite crystals depends on the concentration and composition of the precursor solution. Through a controlled crystallization process, we grew black-colored mixed dimethylammonium (DMA)/methylammonium (MA) lead tribromide crystals. The black color is suggested to be due to the presence of small lead clusters. Despite the unexpected black coloring, the crystals show higher crystallinity and less defect density with respect to the standard yellow-colored DMA/MAPbBr 3 crystals, as indicated by X-ray rocking curve and dark current measurements, respectively. While the formation of metallic lead could still be induced by external factors, the precursor solution composition and concentration can facilitate the formation of metallic lead during the crystallization process. Our results indicate that additional research is required to fully understand the perovskite precursor solution chemistry.

Published

2023

33. a EFFECT OF DIFFERENT ADDITIVES ON METALLIC LEAD RECOVERY FROM CRT FUNNEL GLASS USING THERMAL METHOD

Author

Muna K. Abbass and Abdulkaliq F. Hmood

Subjects

Materials science, business.product_category, Metallic Lead, Funnel, Composite material, business, Thermal methods

Abstract

Cathode ray tube like as electronic waste is a green crisis due to its toxicity. Remove of the lead from CRT funnel glass can prevent it from release into the environmental and allow it reuse. There are several ways to separation lead from its CRT funnel glass and then recovered from it. In this research, CRT funnel glass was treated by high thermal reduction method with using different additives. These additives that used in this method are sodium carbonate (Na2CO3 ) with (20, 25&30) wt% used as a melting agent, sodium sulfide ( Na2S) with (6, 8&10)wt% used as a catalytic agent and carbon powder (C) with (2.4, 3.6 &4.8) wt% used as a reducing agent, at fixed temperature (1100°C) and holding time (120 min). Taguchi technique for design of experiment (DOE) was applied to find the optimum process conditions of different additives for metallic lead recovery by high thermal reduction method. Experimental results presented that the maximum lead recovery was 97.36% when the optimum conditions were sodium carbonate (30%), sodium sulfide (10%), and carbon powder (3.6%) at 1100°C and 120 min.

Published

2020

34. Heavy metal pollution and associated health risk assessment of urban dust in Riyadh, Saudi Arabia

Author

Abdulaziz G. Alghamdi, Mohamed H. EL-Saeid, Abdulhakim J. Alzahrani, and Hesham M. Ibrahim

Subjects

Metallic Lead, Epidemiology, Science, Materials Science, Toxic Agents, Saudi Arabia, Heavy Metals, Toxicology, Pathology and Laboratory Medicine, Families, Metals, Heavy, Medicine and Health Sciences, Toxins, Cities, Materials, Children, Manganese, Multidisciplinary, Ecology and Environmental Sciences, Biology and Life Sciences, Dust, Pollution, Chemistry, Zinc, Age Groups, Medical Risk Factors, Physical Sciences, People and Places, Medicine, Population Groupings, Environmental Pollution, Environmental Monitoring, Research Article, Chemical Elements

Abstract

Depending on their particle size and concentration, heavy metals in urban dust pose a health hazard to humans. This study investigated the total concentration, health risk, integrated pollution load index (IPI), and enrichment factor (EF) of various heavy metals in urban dust at different locations in Riyadh City. Surface dust samples were collected from 50 different residential yards in the north, south, west, east, and central corners of the city and analyzed for cadmium (Cd), chromium (Cr), copper (Cu), manganese (Mn), nickel (Ni), lead (Pb), and zinc (Zn). With respect to concentrations heavy metals were in the following order Zn > Cu > Mn > Cr > Ni > Pb > Cd. The EF trends exposed repeated anthropogenic activities were responsible for Mn, Cr, and Ni, while Pb, Zn, and Cu appeared to come from Earth’s crust. Since the heavy metal concentrations were lower than the threshold values, children and adults are exposed to lower health risk in investigated area. Also, there are no pollution of heavy metals in the dust with respect to IPI which is less than the critical limit (

Published

2022

35. Extraction of Lead from Soil in ROTC Firing Ranges

Author

Atalay, Asmare, Chen, Ren-Hour, Skierkowski, Paul, Tedder, D. William, editor, and Pohland, Frederick G., editor

Published

1997

36. Lead extraction as metallic phase from waste lead oxide-containing glass by redox reaction in hydrothermal treatment

Author

Suzuki, Masanori, Ukisu, Yuma, and Murayama, Norihiro

Published

2021

37. From grassroots to global: A blueprint for building a reproducibility network

Author

Marcus Munato, Alexandra M. Collins, Laura Fortunato, Christopher D. Chambers, and Malcolm R. Macleod

Subjects

Employment, Computer and Information Sciences, Metallic Lead, Process management, Economics, QH301-705.5, media_common.quotation_subject, Research Quality Assessment, Social Sciences, Biology, Research and Analysis Methods, General Biochemistry, Genetics and Molecular Biology, Ecosystems, Grassroots, Sociology, Blueprint, Community Page, Medicine and Health Sciences, Humans, Quality (business), Biology (General), media_common, General Immunology and Microbiology, Ecology, Careers, General Neuroscience, Research, Ecology and Environmental Sciences, Reproducibility of Results, Biology and Life Sciences, Research Assessment, Research Personnel, United Kingdom, Reproducibility, Chemistry, Social Networks, Labor Economics, Physical Sciences, General Agricultural and Biological Sciences, Network Analysis, Chemical Elements

Abstract

Researchers, institutions, funders, and publishers are considering how to improve research culture and quality, but no single part of the research ecosystem can effect change on its own. The UK Reproducibility Network (UKRN) was established to facilitate the necessary coordination. Its experience can inform the establishment of like-minded networks around the world to drive positive change.

Published

2021

38. Mechanistic insight of in situ electrochemical reduction of solid PbO to lead in ChCl-EG deep eutectic solvent.

Author

Ru, Juanjian, Hua, Yixin, Wang, Ding, Xu, Cunying, Li, Jian, Li, Yan, Zhou, Zhongren, and Gong, Kai

Subjects

*ELECTROCHEMICAL analysis, *CHEMICAL reduction, *LEAD oxides, *CHOLINE chloride, *ETHYLENE glycol, *EUTECTICS

Abstract

The in situ electroreduction mechanism of solid PbO in choline chloride-ethylene glycol deep eutectic solvent (ChCl-EG DES) is preliminarily clarified through systematical investigations at cell voltage 2.5 V and 353 K. Cyclic voltammetry of the cavity microelectrode loaded with PbO powders exhibits that solid PbO can be direct electrochemically reduced to metallic lead and increasing scan numbers is beneficial to the deoxidation process. Potentiostatic electrolysis with an assumed cathode of PbO pellet and a graphite anode shows that generated numerous gases are mainly composed of O 2 with small amounts of Cl 2 at anode whereas H 2 is released and preferentially adsorbed on the surface of reduced metallic lead at cathode. Parts of Cl 2 can remain in the electrolyte and react with it to form oxidizing Cl − 3 ions. Besides, the dissolution-electrodeposition of PbO(s) → [PbO·Cl·EG] − → Pb(s) exists simultaneously with the direct deoxidation of PbO(s) → Pb(s) during the electrolysis process. ESI-MS analysis implies that complex anions [PbO·Cl·EG] − and [ChCl·O·EG] 2− are formed in ChCl-EG-PbO solution before and after the deoxidation process, respectively. Furthermore, a reduction mechanism model of PbO bulk to metallic lead in ChCl-EG DES is proposed. The in situ electrolysis process takes place initially at the current collector/PbO/electrolyte 3PIs and then new formed Pb/PbO/electrolyte 3PIs expands until the whole bulk are metallized. These findings provide a basis for scientifically in-depth discussion on the implication and optimization of the electrochemical production of metals and alloys from metal oxides. [ABSTRACT FROM AUTHOR]

Published

2015

39. Shifting networks and mixing metals: Changing metal trade routes to Scandinavia correlate with Neolithic and Bronze Age transformations

Author

Ernst Pernicka, Helle Vandkilde, and Heide Wrobel Nørgaard

Subjects

Baltic States, Composite Particles, European People, Metallic Lead, Slovakian People, Stone Age, Economic shortage, Analytical Chemistry, German, Isotopes, Baltic amber, Ethnicities, Data Mining, Tumulus, Data Management, Multidisciplinary, Physics, Geology, Italian People, Chemistry, Geography, Archaeology, Italy, Neolithic Period, Metals, Austria, Physical Sciences, language, Medicine, Research Article, Chemical Elements, Atoms, Computer and Information Sciences, Slovakia, Science, Pannonian basin, Scandinavian and Nordic Countries, Bronze Age, Humans, Particle Physics, Geologic Time, language.human_language, Trace Elements, People and Places, Period (geology), Earth Sciences, Population Groupings, Copper, Slavic People

Abstract

Based on 550 metal analyses, this study sheds decisive light on how the Nordic Bronze Age was founded on metal imports from shifting ore sources associated with altered trade routes. On-and-off presence of copper characterised the Neolithic. At 2100–2000 BC, a continuous rise in the flow of metals to southern Scandinavia begins. First to arrive via the central German Únětician hubs was high-impurity metal from the Austrian Inn Valley and Slovakia; this was complemented by high-tin British metal, enabling early local production of tin bronzes. Increased metal use locally fuelled the leadership competitions visible in the metal-led material culture. The Únětice downfall c.1600 BC resulted for a short period in a raw materials shortage, visible in the reuse of existing stocks, but stimulated direct Nordic access to the Carpathian basin. This new access expedited innovations in metalwork with reliance on chalcopyrite from Slovakia, as well as opening new sources in the eastern Alps, along an eastern route that also conveyed Baltic amber as far as the Aegean. British metal plays a central role during this period. Finally, from c.1500 BC, when British copper imports ceased, the predominance of novel northern Italian copper coincides with the full establishment of the NBA and highlights a western route, connecting the NBA with the southern German Tumulus culture and the first transalpine amber traffic.

Published

2021

40. A Roman provincial city and its contamination legacy from artisanal and daily-life activities

Author

Søren Kristiansen, Achim Lichtenberger, Rubina Raja, Gry H. Barfod, Bente Philippsen, Tim Kinnaird, Jesper V. Olsen, Genevieve Holdridge, Ian A. Simpson, and University of St Andrews. School of Earth & Environmental Sciences

Subjects

Metallic Lead, Luminescence, Daily life activities, Optically Stimulated Luminescence, Social Sciences, Heavy Metals, Toxicology, Pathology and Laboratory Medicine, 01 natural sciences, Roman World, Soil, Contaminants, Activities of Daily Living, Medicine and Health Sciences, Toxins, 0601 history and archaeology, Materials, History, Ancient, Luminescence Dating, Sedimentary Geology, Multidisciplinary, GE, 060102 archaeology, Physics, Electromagnetic Radiation, Geology, 06 humanities and the arts, Radioactive Carbon Dating, Pollution, SDG 11 - Sustainable Cities and Communities, Chemistry, Archaeology, Physical Sciences, language, Medicine, GE Environmental Sciences, Research Article, Chemical Elements, 010506 paleontology, Science, Toxic Agents, Materials Science, Library science, Research and Analysis Methods, Danish, Political science, Metals, Heavy, Humans, Cities, Chemical Characterization, 0105 earth and related environmental sciences, Petrology, Isotope Analysis, Ecology and Environmental Sciences, Biology and Life Sciences, DAS, Probability Theory, Probability Distribution, language.human_language, Lead, Archaeological Dating, Earth Sciences, Sediment, Environmental Pollution, Mathematics, Copper

Abstract

Funding: This project was supported by the Carlsberg Foundation (R.R., www.carlsbergfondet.dk, Grant CF14-0467), Danish National Research Foundation (R.R., www.dg.dk, Grant 119), the Deutsche Forchungsgemeinschaft (A.L., https://www.dfg.de/, grant nos LI978/4-1 and LI978/4-2), the Deutscher Palästinaverein (A.L., https://www.palaestina-verein.de/), the Danish EliteForsk Award (R.R., https://ufm.dk/forskning-og-innovation/forskningsformidling/eliteforsk, grant 4094-00077B), and H. P. Hjerl Hansens Mindefondet for Dansk Palæstinaforskning (RR). Roman metal use and related extraction activities resulted in heavy metal pollution and contamination, in particular of Pb near ancient mines and harbors, as well as producing a global atmospheric impact. New evidence from ancient Gerasa (Jerash), Jordan, suggests that small-scale but intense Roman, Byzantine and Umayyad period urban, artisanal, and everyday site activities contributed to substantial heavy metal contamination of the city and its hinterland wadi, even though no metal mining took place and hardly any lead water pipes were used. Distribution of heavy metal contaminants, especially Pb, observed in the urban soils and sediments within this ancient city and its hinterland wadi resulted from aeolian, fluvial, cultural and post-depositional processes. These represent the contamination pathways of an ancient city-hinterland setting and reflect long-term anthropogenic legacies at local and regional scales beginning in the Roman period. Thus, urban use and re-use of heavy metal sources should be factored into understanding historical global-scale contaminant distributions. Publisher PDF

Published

2021

41. Lead poisoning from ingestion of fishing gear: A review

Author

Elaine F. Leslie, Tiffany Grade, Julie R. Melotti, Joseph C. Okoniewski, Mark A. Pokras, Michelle Kneeland, Pamela Campbell, Cyndi Perry, Harry S. Vogel, Elizabeth Jane Parmley, Thomas M. Cooley, and Brooke MacDonald

Subjects

0106 biological sciences, Natural resource economics, Metallic Lead, Geography, Planning and Development, Fishing, Fisheries, Wildlife, Animals, Wild, Policy initiatives, 010501 environmental sciences, 010603 evolutionary biology, 01 natural sciences, Lead poisoning, Eating, Human health, medicine, Animals, Humans, Environmental Chemistry, Ingestion, 0105 earth and related environmental sciences, Ecology, Lead Use in Hunting, General Medicine, medicine.disease, Lead Poisoning, Seafood, Business, human activities

Abstract

Many publications have investigated the ingestion and toxicity of metallic lead from hunting and the shooting sports. However, there is limited literature on toxicity associated with the ingestion of lead fishing weights, despite our knowledge of damage caused to many species from entanglement in lines, nets, and fish-hooks. This paper surveys current knowledge of species poisoned by ingestion of lead fishing gear and the types of gear that have been implicated. We review the impacts of lead fishing tackle on wildlife species and human health and describe the efficacy of efforts to reduce the use of lead tackle through voluntary, educational, and regulatory approaches to encourage adoption of non-toxic fishing gear. The authors emphasize the need for further research and policy initiatives to deal with this serious problem. ELECTRONIC SUPPLEMENTARY MATERIAL: The online version of this article (10.1007/s13280-019-01179-w) contains supplementary material, which is available to authorized users.

Published

2019

42. Novel recycling process for lead-acid battery paste without SO2 generation - Reaction mechanism and industrial pilot campaign

Author

Jing He, Rongbo Zhu, Yuejun Wang, Yongming Chen, Liao Fangwen, Chaobo Tang, Pekka Taskinen, Yun Li, Shenghai Yang, Ari Jokilaakso, Department of Chemical and Metallurgical Engineering, Central South University, Hetao College, Aalto-yliopisto, and Aalto University

Subjects

Reaction mechanism, Materials science, 020209 energy, Strategy and Management, Metallic Lead, Efficient lead extraction, chemistry.chemical_element, 02 engineering and technology, SO emission, Industrial and Manufacturing Engineering, Reductive sulfur-fixing smelting, Ferrous, 0202 electrical engineering, electronic engineering, information engineering, Lead–acid battery, ta216, 0505 law, General Environmental Science, Renewable Energy, Sustainability and the Environment, 05 social sciences, Industrial application evaluation, Sulfur, Chemical engineering, chemistry, Scientific method, 050501 criminology

Abstract

This study proposes an innovative and environment-friendly method for recycling spent lead-acid batteries without SO2 generation. Iron-containing waste was employed as a sulfur-fixing agent to retain sulfur as ferrous matte, which eliminated the generation and emissions of gaseous SO2. This work investigated the thermodynamic and experimental feasibility and conversion mechanism of the method, and evaluated its industrial applicability. A bench-scale test showed direct recoveries of 93.5% and 97.7% in crude lead and ferrous matte for lead and sulfur, respectively. The phase transformation mechanism study indicated that metallic lead from the lead paste was extracted mainly through the sequence of PbSO4 → C / C O PbS → F e 3 O 4 PbO → C / C O Pb. Sulfur in PbSO4 was thus first transferred to PbS and finally fixed as FeS. An industrial-scale pilot campaign was also conducted to confirm the feasibility and reliability of the new process.

Published

2019

43. Atrial proarrhythmic effect of lead as one of the PM10 metal components of air pollution. An in-silico study

Author

Robison Buitrago-Sierra, Catalina Tobón, Geraldine Durango-Giraldo, Diana C. Pachajoa, Juan P. Ugarte, Javier Saiz, Laura Palacio, and Camilo Zapata-Hernandez

Subjects

Metallic Lead, Chemical Phenomena, Physiology, Air pollution, Action Potentials, 3d model, Environmental pollution, medicine.disease_cause, Medicine and Health Sciences, 03.- Garantizar una vida saludable y promover el bienestar para todos y todas en todas las edades, Cardiac Atria, Lead (electronics), Materials, Air Pollutants, Multidisciplinary, Chemistry, Simulation and Modeling, Models, Cardiovascular, Heart, Pollution, Electrophysiology, Particulates, Rotors, Physical Sciences, Cardiology, cardiovascular system, Medicine, Action potential duration, Engineering and Technology, Anatomy, Arrhythmia, Research Article, Chemical Elements, medicine.medical_specialty, Science, In silico, Materials Science, Neurophysiology, Research and Analysis Methods, Membrane Potential, TECNOLOGIA ELECTRONICA, Proarrhythmic effect, Internal medicine, Air Pollution, medicine, Humans, Computer Simulation, Heart Atria, Mechanical Engineering, Ecology and Environmental Sciences, Spectrometry, X-Ray Emission, Biology and Life Sciences, Arrhythmias, Cardiac, medicine.disease, Increased risk, Lead, Mixtures, Cardiovascular Anatomy, Particulate Matter, Atrial flutter, Neuroscience

Abstract

[EN] Particulate matter (PM) is considered the most severe environmental pollution problem due to its serious effects on human health associated with an increased risk of cardiovascular morbidity and mortality. In this work, a physicochemical characterization of PM10 from the city of Medellin was developed. The results evince that lead (Pb) is one of the most abundant elements since it is present in all analyzed samples. Therefore, Pb was chosen to perform an in-silico study to assess its effects on atrial arrhythmias generation. For this purpose, we developed a model representing the Pb2+ blocking effect on the L-type calcium channel. This formulation was incorporated in a human atrial cell mathematical model and in 2D and 3D models of human atria. The simulations showed a proarrhythmic effect at high Pb2+ concentrations, through shortening of action potential duration inducing the generation of reentrant activity and atrial flutter. The results contribute to the knowledge about the cardiac physiopathological processes, triggered by lead as one of the main PM10 metal components of air pollution, that yields the generation of arrhythmias., This work was supported by Ministerio de Ciencia, Tecnologi a e Innovacion MINCIENCIAS from Colombia, through grant No. 120677757994; and by the Direccion General de Politica Cientifica de la Generalitat Valenciana PROMETEO/2020/043.

Published

2021

44. Association between urinary arsenic, blood cadmium, blood lead, and blood mercury levels and serum prostate-specific antigen in a population-based cohort of men in the United States

Author

Alicia C. McDonald, Hongke Wu, Ming Wang, and Jay D. Raman

Subjects

Male, Metallic Lead, Physiology, Epidemiology, Heavy Metals, Toxicology, Pathology and Laboratory Medicine, Cohort Studies, Prostate cancer, Prostate, Medicine and Health Sciences, Odds Ratio, Toxins, Multidisciplinary, Prostate Cancer, Cancer Risk Factors, Confounding, Prostate Diseases, Middle Aged, Nutrition Surveys, Body Fluids, Chemistry, medicine.anatomical_structure, Prostate cancer screening, Blood, Oncology, Cohort, Physical Sciences, Medicine, Anatomy, Research Article, Chemical Elements, Cadmium, Adult, National Health and Nutrition Examination Survey, Science, Urinary system, Urology, Toxic Agents, White People, Arsenic, medicine, Humans, Aged, business.industry, Biology and Life Sciences, Cancers and Neoplasms, Mercury, Prostate-Specific Antigen, medicine.disease, United States, Black or African American, Genitourinary Tract Tumors, Logistic Models, Lead, Medical Risk Factors, Metallic Mercury, business, Body mass index

Abstract

Exposures to heavy metals have been linked to prostate cancer risk. The relationship of these exposures with serum prostate-specific antigen (PSA), a marker used for prostate cancer screening, is unknown. We examined whether total urinary arsenic, urinary dimethylarsonic acid, blood cadmium, blood lead, and total blood mercury levels are associated with elevated PSA among presumably healthy U.S. men. Prostate cancer-free men, aged ≥40 years, were identified from the 2003–2010 National Health and Nutrition Examination Survey. Logistic regression analyses with survey sample weights were used to examine the association between heavy metal levels and elevated PSA for the total population and stratified by black and white race, after adjusting for confounders. There were 5,477 men included. Approximately 7% had elevated PSA. Men with an elevated PSA had statistically significantly higher levels of blood cadmium and blood lead compared to men with a normal PSA (p-values ≤ 0.02), with black men having higher levels. After adjusting for age, race/ethnicity, body mass index, smoking, and education, there was no association found between any of the heavy metal levels and elevated PSA for the total population. In addition, there was no association found when stratified by black and white race. Further investigation is warranted in a larger cohort of men who persistently are exposed to these heavy metals.

Published

2021

45. Melting, smelting, and recycling: A regional study around the Late Bronze Age mining site of Prigglitz-Gasteil, Lower Austria

Author

Benjamin Sabatini, Peter Trebsche, and Marianne Mödlinger

Subjects

Metallic Lead, Composite Particles, Geochemistry, Social Sciences, Stone Age, 01 natural sciences, Isotopes, 0601 history and archaeology, Industrial Development, History, Ancient, Multidisciplinary, 060102 archaeology, Physics, Geology, 06 humanities and the arts, Chemistry, Zinc, Archaeology, Neolithic Period, Austria, Smelting, Metallurgy, Physical Sciences, Medicine, Research Article, Chemical Elements, 010506 paleontology, Atoms, Science, Materials Science, chemistry.chemical_element, Scrap, Mining, Bronze Age, Castings, Cultural Evolution, Alloys, Humans, Copper Alloys, Particle Physics, 0105 earth and related environmental sciences, Copper mining, Geologic Time, Copper, chemistry, Casting (metalworking), Earth Sciences

Abstract

This paper presents a study on copper production and distribution in Lower Austria’s southeastern region during the Late Bronze Age (c. 1350–800 BC), with the focal point being the chemistry and isotopic character of artifacts from a small copper mining site at Prigglitz-Gasteil on the Eastern Alps’ easternmost fringe. Ores, casting cakes, and select objects from the Late Bronze Age mining site at Prigglitz-Gasteil, Lower-Austria, and within 15 km of its surroundings, were chemically and isotopically analysed using XRF, NAA, and MC-ICPMS. The importance of Prigglitz-Gasteil as a local mining and metal processing center is evaluated based on the produced data, and the distribution and sourcing of copper-producing materials found at the site are discussed. Special attention is paid to the mixing of scrap and source materials early in the metal production process. The most salient discussions focus on the variability of the chemistry and Pb isotopic ratios of the studied objects, which seem to constitute a multitude of source materials, unlike the pure chalcopyrite-source copper produced from the Prigglitz-Gasteil mine itself. The analytical data suggests that copper alloys were mainly imported from materials originating in the Slovakian Ore Mountains, which were subsequently mixed/recycled with relatively pure locally produced copper. The purity of the copper from Prigglitz-Gasteil was fortuitous in identifying imported copper that contained measurable amounts of Pb and other chemically distinct characteristics. The chaîne opératoire of metal production at the site is mentioned; however, it is clear that additional information on the region’s geochemistry is required before any finite conclusions on the ore-to-metal production can be made.

Published

2021

46. Novel perovskite solar cell with Distributed Bragg Reflector

Author

Waqas Farooq, Shanshan Tu, Syed Asfandyar Ali Kazmi, Sadaqat ur Rehman, Adnan Daud Khan, Haseeb Ahmad Khan, Muhammad Waqas, Obaid ur Rehman, Haider Ali, and Muhammad Noman

Subjects

Bromides, Metallic Lead, Light, Amorphous Solids, Science, Materials Science, Hazardous Materials, Methylamines, Solar Energy, Materials, Titanium, Multidisciplinary, Optical Materials, Physics, Electromagnetic Radiation, Chemical Compounds, Oxides, Calcium Compounds, Iodides, Models, Theoretical, Energy and Power, Chemistry, Lead, Photovoltaic Power, Physical Sciences, Sunlight, Engineering and Technology, Medicine, Solar Radiation, Alternative Energy, Glass, Algorithms, Research Article, Chemical Elements

Abstract

This paper reports numerical modeling of perovskite solar cell which has been knotted with Distributed Bragg Reflector pairs to extract high energy efficiency. The geometry of the proposed cells is simulated with three different kinds of perovskite materials including CH3NH3PbI3, CH3NH3PbBr3, and CH3NH3SnI3. The toxic perovskite material based on Lead iodide and lead bromide appears to be more efficient as compared to non-toxic perovskite material. The executed simulated photovoltaic parameters with the highest efficient structure are open circuit voltage = 1.409 (V), short circuit current density = 24.09 mA/cm2, fill factor = 86.18%, and efficiency = 24.38%. Moreover, a comparison of the current study with different kinds of structures has been made and surprisingly our novel geometry holds enhanced performance parameters that are featured with back reflector pairs (Si/SiO2). The applied numerical approach and presented designing effort of geometry are beneficial to obtain results that have the potential to address problems with less efficient thin-film solar cells.

Published

2021

47. Risk of lead exposure, subcortical brain structure, and cognition in a large cohort of 9- to 10-year-old children

Author

Andrew T. Marshall, Wesley K. Thompson, Elizabeth R. Sowell, Bruce P. Lanphear, Rob McConnell, Megan M. Herting, and Jacobson, Sandra

Subjects

Male, Metallic Lead, Epidemiology, Social Sciences, Audiology, Corpus callosum, Social Geography, Corpus Callosum, Families, Cognition, Medicine and Health Sciences, Cognitive development, Ethnicities, 2.2 Factors relating to the physical environment, Medicine, Attention, Aetiology, Child, Children, Pediatric, Language Tests, Multidisciplinary, Geography, Brain, Cognitive test, Chemistry, Mental Health, Research Design, Physical Sciences, Cohort, Neighborhoods, Female, Anatomy, social and economic factors, Research Article, Chemical Elements, Census, medicine.medical_specialty, Imaging Techniques, General Science & Technology, Science, Splenium, Neuroimaging, Human Geography, Research and Analysis Methods, Basic Behavioral and Social Science, Clinical Research, 2.3 Psychological, Behavioral and Social Science, Humans, Cognitive skill, Effects of sleep deprivation on cognitive performance, Survey Research, business.industry, Neurosciences, Biology and Life Sciences, Cross-Sectional Studies, Lead, Age Groups, Medical Risk Factors, People and Places, Earth Sciences, Population Groupings, business, Neuroscience

Abstract

BackgroundLead, a toxic metal, affects cognitive development at the lowest measurable concentrations found in children, but little is known about its direct impact on brain development. Recently, we reported widespread decreases in cortical surface area and volume with increased risks of lead exposure, primarily in children of low-income families.Methods and findingsWe examined associations of neighborhood-level risk of lead exposure with cognitive test performance and subcortical brain volumes. We also examined whether subcortical structure mediated associations between lead risk and cognitive performance. Our analyses employed across-sectional analysis of baseline data from the observational Adolescent Brain Cognitive Development (ABCD) Study. The multi-center ABCD Study used school-based enrollment to recruit a demographically diverse cohort of almost 11,900 9- and 10-year-old children from an initial 22 study sites. The analyzed sample included data from 8,524 typically developing child participants and their parents or caregivers. The primary outcomes and measures weresubcortical brain structure, cognitive performance using the National Institutes of Health Toolbox, and geocoded risk of lead exposure.Children who lived in neighborhoods with greater risks of environmental lead exposure exhibited smaller volumes of the mid-anterior (partial correlation coefficient [rp] = -0.040), central (rp= -0.038), and mid-posterior corpus callosum (rp= -0.035). Smaller volumes of these three callosal regions were associated with poorer performance on cognitive tests measuring language and processing speed. The association of lead exposure risk with cognitive performance was partially mediated through callosal volume, particularly the mid-posterior corpus callosum. In contrast, neighborhood-level indicators of disadvantage were not associated with smaller volumes of these brain structures.ConclusionsEnvironmental factors related to the risk of lead exposure may be associated with certain aspects of cognitive functioning via diminished subcortical brain structure, including the anterior splenium (i.e., mid-posterior corpus callosum).

Published

2021

48. A comparison of fragmenting lead-based and lead-free bullets for aerial shooting of wild pigs

Author

Andrew J. Bengsen, Andrew L. Perry, Corissa J. Miller, Steve Parker, Steve K Joslyn, Jordan O. Hampton, Grant Eccles, Rob Hunt, Sigbjørn Stokke, Jon M. Arnemo, and Quentin Hart

Subjects

Veterinary medicine, Firearms, Metallic Lead, Swine, Science, Sus scrofa, Ballistics, Velocity, Animals, Wild, Biology, Wildlife, Animal Welfare, Research and Analysis Methods, Bullet wound, Motion, Pig Models, Medicine and Health Sciences, Animals, Humans, Animal Management, Mammals, Multidisciplinary, Fish and Wildlife Management, Physics, Organisms, Biology and Life Sciences, Eukaryota, Classical Mechanics, Agriculture, Environmental exposure, Environmental Exposure, Animal Models, Thorax, Chemistry, Lead, Experimental Organism Systems, Shot (pellet), Vertebrates, Amniotes, Physical Sciences, Animal Studies, Medicine, Autopsy, Anatomy, Zoology, Research Article, Chemical Elements

Abstract

In response to the health threats posed by toxic lead to humans, scavenging wildlife and the environment, there is currently a focus on transitioning from lead-based to lead-free bullets for shooting of wild animals. We compared efficiency metrics and terminal ballistic performance for lead-based and lead-free (non-lead) bullets for aerial shooting of wild pigs (Sus scrofa) in eastern Australia. Ballistic testing revealed that lead-based and lead-free bullets achieved similar performance in precision and muzzle kinetic energy (E0) levels (3337.2 J and 3345.7 J, respectively). An aerial shooting trial was conducted with wild pigs shot with one type of lead-based and one type of lead-free bullets under identical conditions. Observations were made from 859 shooting events (n = 430 and 429 respectively), with a sub-set of pigs examined via gross post-mortem (n = 100 and 108 respectively), and a further sub-set examined via radiography (n = 94 and 101 respectively). The mean number of bullets fired per pig killed did not differ greatly between lead-based and lead-free bullets respectively (4.09 vs 3.91), nor did the mean number of bullet wound tracts in each animal via post-mortem inspection (3.29 vs 2.98). However, radiography revealed a higher average number of fragments per animal (median >300 vs median = 55) and a broader distribution of fragments with lead-based bullets. Our results suggest that lead-based and lead-free bullets are similarly effective for aerial shooting of wild pigs, but that the bullet types behave differently, with lead-based bullets displaying a higher degree of fragmentation. These results suggest that aerial shooting may be a particularly important contributor to scavenging wildlife being exposed to lead and that investigation of lead-free bullets for this use should continue.

Published

2021

49. The association of cadmium and lead exposures with red cell distribution width

Author

Robert O. Wright, Jennifer Weuve, Melissa J. Perry, Junenette L. Peters, Wendy Heiger-Bernays, and Eileen McNeely

Subjects

Erythrocyte Indices, Male, Metallic Lead, Physiology, Social Sciences, Habits, Animal Cells, Red Blood Cells, Medicine and Health Sciences, Smoking Habits, Psychology, Mean corpuscular volume, Cadmium, Alcohol Consumption, Multidisciplinary, medicine.diagnostic_test, Smoking, Nutritional Deficiencies, Anemia, Hematology, Iron deficiency, Middle Aged, Body Fluids, Chemistry, Blood, Physical Sciences, Medicine, Female, Anatomy, Cellular Types, Research Article, Chemical Elements, Adult, National Health and Nutrition Examination Survey, Science, chemistry.chemical_element, Young Adult, medicine, Humans, Vitamin B12, Nutrition, Behavior, Blood Cells, business.industry, Biology and Life Sciences, Red blood cell distribution width, Cell Biology, medicine.disease, Diet, Lead, chemistry, Multivariate Analysis, Iron Deficiency, Hemoglobin, business

Abstract

Elevated red blood cell distribution width (RDW), traditionally an indicator of anemia, has now been recognized as a risk marker for cardiovascular disease incidence and mortality. Experimental and acute exposure studies suggest that cadmium and lead individually affect red blood cell production; however, associations between environmental exposures and RDW have not been explored. We evaluated relationships of environmental cadmium and lead exposures to RDW. We used data from 24,607 participants aged ≥20 years in the National Health and Nutrition Examination Survey (2003–2016) with information on blood concentrations of cadmium and lead, RDW and socio-demographic factors. In models adjusted for age, sex, race/ethnicity, education, poverty income ratio, BMI, alcohol consumption, smoking status and serum cotinine, RDW was increasingly elevated across progressively higher quartiles of blood cadmium concentration. A doubling of cadmium concentration was associated with 0.16 higher RDW (95% CI: 0.14, 0.18) and a doubling of lead concentration with 0.04 higher RDW (95% CI: 0.01, 0.06). Also, higher cadmium and lead concentrations were associated with increased odds of high RDW (RDW>14.8%). The associations were more pronounced in women and those with low-to-normal mean corpuscular volume (MCV) and held even after controlling for iron, folate or vitamin B12 deficiencies. In analysis including both metals, cadmium remained associated with RDW, whereas the corresponding association for lead was substantially attenuated. In this general population sample, blood cadmium and lead exposures were positively associated with RDW. The associations may indicate hemolytic or erythropoietic mechanisms by which exposure increases mortality risk.

Published

2021

50. Backward Learning for the Origin and Influence of Metallic Lead in Perovskite Solar Cells

Author

Xuzhi Hu, Chen Wang, Guojia Fang, Jiashuai Li, Meng Xiao, Cong Chen, Jiwei Liang, Weijun Ke, Rui Yu, and Tao Chen

Subjects

History, Materials science, Polymers and Plastics, Condensed matter physics, Metallic Lead, Business and International Management, Industrial and Manufacturing Engineering, Perovskite (structure)

Published

2021