Showing total 33,047 results

1. Development of an Electrochemical Paper-Based Device Modified with Functionalized Biochar for the Screening of Paracetamol in Substandard Medicines.

Author

Silva, Martin, Barreto, Francisco, Sousa, Guilherme, Simões, Rafael, Ahuja, Gaurav, Dutta, Samriddha, Mulchandani, Ashok, and Cesarino, Ivana

Subjects

3D printing, conductive ink, electrochemical paper-based analytical devices (ePADs), paracetamol, substandard drugs, Acetaminophen, Charcoal, Electrochemical Techniques, Paper, Graphite, Limit of Detection

Abstract

The global prevalence of counterfeit and low-quality pharmaceuticals poses significant health risks and challenges in medical treatments, creating a need for rapid and reliable drug screening technologies. This study introduces a cost-effective electrochemical paper-based device (ePAD) modified with functionalized bamboo-derived biochar (BCF) for the detection of paracetamol in substandard medicines. The sensor was fabricated using a custom 3D-printed stencil in PLA, designed for efficient production, and a 60:40 (m/m) graphite (GR) and glass varnish (GV) conductive ink, resulting in a robust and sensitive platform. The electroactive area of the ePAD/BCF sensor was determined as 0.37 cm2. Characterization via SEM and cyclic voltammetry (CV) verified its structural and electrochemical stability. The sensor demonstrated linear detection of paracetamol from 5.0 to 60.0 µmol L-1 with a detection limit of 3.50 µmol L-1. Interference studies showed high selectivity, with recoveries of over 90%, and the sensor successfully quantified paracetamol in commercial analgesic and anti-flu samples. This sustainable, bamboo-based ePAD offers a promising solution for rapid on-site pharmaceutical quality control, with significant potential to enhance drug screening accuracy.

Published

2024

2. Deep Learning-Enhanced Paper-Based Vertical Flow Assay for High-Sensitivity Troponin Detection Using Nanoparticle Amplification.

Author

Han, Gyeo-Re, Goncharov, Artem, Eryilmaz, Merve, Joung, Hyou-Arm, Ghosh, Rajesh, Yim, Geon, Chang, Nicole, Kim, Minsoo, Ngo, Kevin, Veszpremi, Marcell, Liao, Kun, Garner, Omai, Di Carlo, Dino, and Ozcan, Aydogan

Subjects

cardiovascular disease, deep learning, high sensitivity, nanoparticle amplification, point-of-care, troponin, vertical flow assay, Humans, Paper, Deep Learning, Troponin I, Point-of-Care Testing, Biosensing Techniques, Limit of Detection, Gold, Biomarkers, Colorimetry, Nanoparticles

Abstract

Successful integration of point-of-care testing (POCT) into clinical settings requires improved assay sensitivity and precision to match laboratory standards. Here, we show how innovations in amplified biosensing, imaging, and data processing, coupled with deep learning, can help improve POCT. To demonstrate the performance of our approach, we present a rapid and cost-effective paper-based high-sensitivity vertical flow assay (hs-VFA) for quantitative measurement of cardiac troponin I (cTnI), a biomarker widely used for measuring acute cardiac damage and assessing cardiovascular risk. The hs-VFA includes a colorimetric paper-based sensor, a portable reader with time-lapse imaging, and computational algorithms for digital assay validation and outlier detection. Operating at the level of a rapid at-home test, the hs-VFA enabled the accurate quantification of cTnI using 50 μL of serum within 15 min per test and achieved a detection limit of 0.2 pg/mL, enabled by gold ion amplification chemistry and time-lapse imaging. It also achieved high precision with a coefficient of variation of

Published

2024

3. A Paper-Based Multiplexed Serological Test to Monitor Immunity against SARS-COV-2 Using Machine Learning.

Author

Eryilmaz, Merve, Goncharov, Artem, Han, Gyeo-Re, Joung, Hyou-Arm, Ballard, Zachary, Ghosh, Rajesh, Zhang, Yijie, Di Carlo, Dino, and Ozcan, Aydogan

Subjects

COVID-19, machine learning, paper-based assays, serology, vertical flow assays, Humans, COVID-19, SARS-CoV-2, Machine Learning, Antibodies, Viral, Immunoglobulin G, Immunoglobulin M, Paper, COVID-19 Serological Testing, Serologic Tests

Abstract

The rapid spread of SARS-CoV-2 caused the COVID-19 pandemic and accelerated vaccine development to prevent the spread of the virus and control the disease. Given the sustained high infectivity and evolution of SARS-CoV-2, there is an ongoing interest in developing COVID-19 serology tests to monitor population-level immunity. To address this critical need, we designed a paper-based multiplexed vertical flow assay (xVFA) using five structural proteins of SARS-CoV-2, detecting IgG and IgM antibodies to monitor changes in COVID-19 immunity levels. Our platform not only tracked longitudinal immunity levels but also categorized COVID-19 immunity into three groups: protected, unprotected, and infected, based on the levels of IgG and IgM antibodies. We operated two xVFAs in parallel to detect IgG and IgM antibodies using a total of 40 μL of human serum sample in

Published

2024

4. CRISPR/Cas14 and G-Quadruplex DNAzyme-Driven Biosensor for Paper-Based Colorimetric Detection of African Swine Fever Virus.

Author

Zhao, Xue, He, Yawen, Shao, Shengjie, Ci, Qiaoqiao, Chen, Lin, Lu, Xiaonan, Liu, Qian, and Chen, Juhong

Subjects

African swine fever virus, CRISPR, Cas14, G-quadruplex, microfluidic paper-based analytical device, pathogen detection, African Swine Fever Virus, Colorimetry, Biosensing Techniques, DNA, Catalytic, G-Quadruplexes, Paper, Animals, CRISPR-Cas Systems, Swine, DNA, Viral, Limit of Detection

Abstract

The highly contagious nature and 100% fatality rate contribute to the ongoing and expanding impact of the African swine fever virus (ASFV), causing significant economic losses worldwide. Herein, we developed a cascaded colorimetric detection using the combination of a CRISPR/Cas14a system, G-quadruplex DNAzyme, and microfluidic paper-based analytical device. This CRISPR/Cas14a-G4 biosensor could detect ASFV as low as 5 copies/μL and differentiate the wild-type and mutated ASFV DNA with 2-nt difference. Moreover, this approach was employed to detect ASFV in porcine plasma. A broad linear detection range was observed, and the limit of detection in spiked porcine plasma was calculated to be as low as 42-85 copies/μL. Our results indicate that the developed paper platform exhibits the advantages of high sensitivity, excellent specificity, and low cost, making it promising for clinical applications in the field of DNA disease detection and suitable for popularization in low-resourced areas.

Published

2024

5. DRAW COLOURFUL MANGA ARTWORK: CHIHIRO HOWE guides us through the process of creating a manga-style character using alcohol-based markers

Author

Howe, Chihiro

Subjects

Paper, Manga literature

Abstract

Alcohol-based markers are a medium that shuns both hassle and mess, and is fairly easy to use once you get the hang of it. The colour choices are abundant, the [...]

Published

2024

6. Unique Triboelectric Nanogenerator Using Carbon Nanotube Composite Papers.

Author

Okochi, Kazuki and Oya, Takahide

Subjects

CARBON paper, ALUMINUM plates, CARBON composites, ALUMINUM composites, TRIBOELECTRICITY

Abstract

Featured Application: A paper-based triboelectric nanogenerator using carbon nanotube composite papers, as developed in this study, has the potential to be used as an energy harvester in fields such as the Internet of Things (IoT). A unique triboelectric nanogenerator (TENG) using carbon nanotube (CNT) composite papers is proposed in this work. CNT composite papers can be fabricated easily using a method based on the production of Japanese washi paper. To obtain and evaluate the proposed TENGs, several types of CNT composite papers and aluminum plates were prepared. As the CNT composite paper contained many paper fibers, it was expected to be negatively charged, and the aluminum plate was expected to be positively charged across the triboelectric series. Through various experiments, it was confirmed that CNT composite papers could be used as TENGs. In addition, it was found that when a CNT composite paper was used, it contributed to triboelectricity generation, and the contained CNTs efficiently transferred the generated charge to the electrodes. Furthermore, output voltages approaching a maximum RMS value of 300 mV could be obtained. The results of this study will aid in the practical application of paper-based TENGs in the near future. [ABSTRACT FROM AUTHOR]

Published

2024

7. Looking East and West for Pulpwood, Pulp and Paper: Great Britain as an Anomaly in Europe, 1860–1960.

Author

Kuhlberg, Mark and Särkkä, Timo

Abstract

The years 1860 to 1960 witnessed the birth and rapid expansion of the modern pulp and paper industry. Its sine qua non was access to enormous volumes of conifer trees that grew in the northern hemisphere's temperate and boreal forests. Predictably, countries in northern Europe with large swaths of these woodlands became home to substantial pulp and paper industries. This article explains why Great Britain represented Europe's glaring exception to this rule. Unique circumstances allowed it to become Europe's largest newsprint producer even though it suffered from a dearth of conifers. Britain's newspaper publishers grew their circulations and created the largest newsprint market in Europe for most of the period under examination. To meet their exploding demand for paper, they gained control over their country's newsprint industry. Like producers in other western European countries, they looked to Scandinavia to address their lack of domestic wood supplies, but they also exploited their imperial connection to access a prodigious supply of fibre and pulps in Canada and Newfoundland. Britain's competitive advantage in this regard was political and not economic because tapping this distant source of raw materials was costly. Nevertheless, British producers were able to absorb the higher costs because their business was vertically integrated. However, British producers could not outrun their resource deficit forever. Changing global industry conditions after World War II caused them to lose their preponderant standing. [ABSTRACT FROM AUTHOR]

Published

2024

8. Water Repellent Coating in Textile, Paper and Bioplastic Polymers: A Comprehensive Review.

Author

Rungruangkitkrai, Nattadon, Phromphen, Phannaphat, Chartvivatpornchai, Nawarat, Srisa, Atcharawan, Laorenza, Yeyen, Wongphan, Phanwipa, and Harnkarnsujarit, Nathdanai

Subjects

*WATER repellents, *COATED textiles, *SUSTAINABLE development, *SURFACE coatings, *RESEARCH & development

Abstract

Water-repellent coatings are essential for enhancing the durability and sustainability of textiles, paper, and bioplastic polymers. Despite the growing use of sustainable materials, their inherent hydrophilicity presents significant challenges. This review explores advanced coating technologies to address these issues, focusing on their mechanisms, properties, and applications. By imparting water resistance and repellency, these coatings improve material performance and longevity. The environmental impact and limitations of current coatings are critically assessed, highlighting the need for sustainable solutions. This review identifies key trends and challenges, offering insights into developing water-resistant materials that align with environmental goals while meeting industry demands. Key focus areas include coating mechanisms, techniques, performance evaluation, applications, environmental impact assessment, and the development of sustainable coating solutions. This research contributes to the development of water-resistant materials that meet the demands of modern industries while minimizing environmental impact. [ABSTRACT FROM AUTHOR]

Published

2024

9. Development and Improvement of a "Paper Actuator" Based on Carbon Nanotube Composite Paper with Unique Structures.

Author

Toyomasu, Ryodai and Oya, Takahide

Subjects

CARBON composites, ACTUATORS, IONIC liquids, ELECTRODES, VOLTAGE

Abstract

We propose a new type of soft actuator based on carbon nanotube (CNT) composite paper (CNTCP), i.e., a paper actuator. In our previous study, we demonstrated that actuator operation was possible when using CNTCPs as electrodes with ordinary paper containing ionic liquid between the electrodes; however, their bending motion was not sufficient. Therefore, we here attempt to modify the paper actuator. For this, we tried to soften CNTCPs by first reducing the ratio of contained CNTs. In addition, as a new strategy, we took advantage of the fact that the proposed actuator was made of paper and introduced the Kirigami (introducing periodical slits to papers) technique into the structure of our paper actuator. As a result, the performance of the actuator was improved, and its bending motion became visibly larger. The response of the improved actuator to the input voltage was investigated in detail, and the detailed operating conditions could be clarified. Moreover, it was found that not only a bending motion but also a twisting motion could be realized in specific slit patterns. It is thought that the fact that the variation in movement can be increased simply by adding incisions is unique to the proposed paper actuator. [ABSTRACT FROM AUTHOR]

Published

2024

10. Türkiye'de Kâğıt Sanayi.

Author

Gökmen, Özgür and Özçağlar, Ali

Abstract

Copyright of Turkish Journal of Geographical Sciences / Coğrafi Bilimler Dergisi is the property of Cografi Bilimler Dergisi and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2024

11. Regioselective oxidation of recycled cellulosic fibres for enhancement in the mechanical strength of resulting papers.

Author

Satapathy, Mitra and Patankar, Saurabh C.

Subjects

PAPER recycling, RECYCLED paper, PACKAGING recycling, WASTE recycling, TENSILE strength

Abstract

The worldwide recycling rate for paper is about 60% and there are ongoing efforts to enhance the recycling rates to 80%. The low strength of recycled paper primarily due to the contaminants in it fetches lower value to the recycled paper in the market and also limits its recyclability. The ways to circumvent the problem of contamination of paper have been addressed by adding additives. However, the use of additives increases the cost of the final recycled paper. Oxidation has been explored as an alternative to enhance the tensile strength of paper in this work as it can be used in existing paper recycling facilities without any modifications. Pulp fibres were collected from an active paper recycling mill and subjected to oxidation at various oxidation levels from 0.25 up to 1.5 mmol/g. It was found that the tensile strength of the paper increased by up to 89% with an increase in oxidation level up to 1 mmol/g and later decreased with a further increase in the oxidation level up to 1.5 mmol/g. The brightness of the paper increased by up to 3% with an increase in oxidation level up to 0.85 mmol/g and then a decrease with further enhancement in the oxidation level. The oxidized samples were also studied with infrared spectroscopy, x‐ray diffraction, electron microscopy, and optical properties to study the behaviour of the resulting material. A ring crush test and corrugating medium test were also performed on the oxidized pulp samples to establish the feasibility of the material for packaging applications. [ABSTRACT FROM AUTHOR]

Published

2024

12. Türkiye’de Kâğıt Sanayi

Author

Özgür Gökmen and Ali Özçağlar

Subjects

paper, paper industry, seka, industrial geography, Geography (General), G1-922

Abstract

In the research, the history of the paper industry in Turkey was examined and its current situation was revealed with updated data. Time series analysis, which is suitable for the scope of the research, was preferred as the method of the article. In the study, firstly, paper enterprises and production initiatives in the Ottoman Empire are explained. In the next step, the efforts to establish and develop the paper industry in order to reduce the foreign dependency of the Young Republic of Turkey were emphasized. The modern paper industry in Turkey was established in Izmit in 1934. Izmit Paper Mills, which was affiliated with Sümerbank, was affiliated with the Ministry of Industry and was named General Directorate of Turkish Pulp and Paper Mills Enterprise (SEKA). In the research, paper mills in Turkey were examined in three periods: establishment (1934-1961), expansion to regions (1970-1984), privatization and today. In addition, the numerical values in paper production of Germany and Turkey, which rank first in paper production in Europe, were compared. As a result, it has been revealed that the paper industry in Turkey has become a sector that has a foreign trade deficit every year, cellulose production is insufficient and the natural resource potential cannot be mobilized. In this context, some suggestions evaluated from a geographical perspective are presented.

Published

2024

13. Research Progress on electrochemical paper-based analytical devices for the Detection of Pesticide Residues

Author

LI Yanqing, ZONG Xinrong, CHEN Si’an, ZHANG Min

Subjects

electrochemical paper-based analytical devices, pesticide residue, paper, hydrophobic barriers, separation, Food processing and manufacture, TP368-456

Abstract

The development of pesticides has significantly advanced global agricultural production, but the ensuing problem of pesticide residues poses a severe threat to human health. So, there is an urgent need to establish a rapid, accurate, sensitive, cost-effective and on-site method for large-scale detection of pesticide residues. Electrochemical paper-based analytical devices (ePADs) represents a highly sensitive and portable microanalysis system, which uses paper as a substrate and relies on a capillary force to drive the fluid for the separation and detection of samples. The diversity of pesticides and agricultural products and the complexity of matrices impose high requirements on the sample preparation procedure. This article summarizes the preparation process of ePADs from the aspects of paper selection, the establishment of hydrophilic and hydrophobic channels, the integration of separation zones, and electrode printing. Subsequently, this paper establishes the relationship between pesticide detection and chip preparation based on the mechanism of electrochemical detection of pesticides. Finally, it discusses the advantages, challenges and future prospects of ePADs with a view to providing theoretical reference for enhanced application of ePADs in the field of pesticide residue detection.

Published

2024

14. The Influence of the Composition of Pulp and the Number of Layers on the Strength Properties of Multi-Layer Papers Intended for the Production of Corrugated Paperboard

Author

Karolina Radomska, Konrad Olejnik, and Piotr Pospiech

Subjects

paper, multi-ply papers, paper strength properties, papermaking potential, corrugated board, recycled fibers, Biotechnology, TP248.13-248.65

Abstract

This research investigated the influence of the layered structure of paper on its selected strength properties. Two types of cellulose pulp were used: unbleached kraft pine pulp (UBSK) and unrefined bleached birch kraft pulp (BHK). Multi-ply papers were obtained from layers of appropriate grammage formed separately and bonded in a wet state. Paper layers were formed from primary pulps (UBSK and BHK) or their mixtures (three-ply UBSK-BHK paper and three-ply UBSK-BHK-UBSK paper), from which various variants of laboratory paper samples were made. This work focused on three-layer papers. The obtained laboratory sheets were analysed for changes in tear resistance, tensile strength, bursting strength, short span compression strength (SCT), and corrugating medium test (CMT). In most cases, three-layer structures were characterised by higher strength parameters than single-layer papers. The tear strength and SCT of papers consisting of three layers formed from both mixed pulps were slightly lower than those of solid papers. The results demonstrate the feasibility of producing three-ply paper with significantly reduced variability in parameters such as elongation and bursting strength, which are inherently subject to high variability.

Published

2024

15. Methods for Characterization and Continuum Modeling of Inhomogeneous Properties of Paper and Paperboard Materials: A Review

Author

Cedric Wilfried Sanjon, Yuchen Leng, Marek Hauptmann, Peter Groche, and Jens-Peter Majschak

Subjects

paper, paperboard, material characterization, inhomogeneity, simulation, modeling, forming process, Biotechnology, TP248.13-248.65

Abstract

The potential of paper and paperboard as fiber-based materials capable of replacing conventional polymer-based materials has been widely investigated and evaluated. Due to paper’s limited extensibility and inherent heterogeneity, local structural variations lead to unpredictable local mechanical behavior and instability during processing, such as mechanical forming. To gain a deeper understanding of the impact of mechanical behavior and heterogeneity on the paper forming process, the Finite Element Method (FEM) coupled with continuum modeling is being explored as a potential approach to enhance comprehension. To achieve this goal, utilizing experimentally derived material parameters alongside stochastic finite element methods allows for more precise modeling of material behavior, considering the local material properties. This work first introduces the approach of modeling heterogeneity or local material structure within continuum models, such as the Stochastic Finite Element Method (SFEM). A fundamental challenge lies in accurately measuring these local material properties. Experimental investigations are being conducted to numerically simulate mechanical behavior. An overview is provided of experimental methods for material characterization, as found in literature, with a specific focus on measuring local mechanical material structure. By doing so, it enables the characterization of the global material structure and mechanical behavior of paper and paperboard.

Published

2024

16. Functionalized lignin nanoparticles prepared by high shear homogenization for all green and barrier-enhanced paper packaging.

Author

Xiaoqian Gai, Chao Liu, Zhaochuan Yu, Yu Li, Yuting Wang, Chao Deng, Haiying Wei, Yuqian Liu, and Huining Xiao

Subjects

LIGNINS, NANOPARTICLES, PAPER, PACKAGING, HYDROPHOBIC interactions

Abstract

Paper-based materials made from cellulose have been sought after as a sustainable and inexpensive packaging option. However, the porous structure and high hydrophilicity of paper-based materials result in inadequate water and oil repellency, as well as a limited water vapor barrier. In this work, lignin nanoparticles (LNPs) were prepared using a high-speed homogenizer, and subsequently coated on base paper along with cationic starch to enhance its multi-barrier performance to facilitate the packaging application. The LNPs obtained through such a facile process formed stable colloidal dispersion in water, which exhibited excellent interfacial compatibility with cationic starch. During the coating process, a highly adhesive emulsion consisting of cationic starch and LNPs were coated on the surface of base paper, imparting good hydrophobic properties to the paper. The resulting paper material exhibited good water resistance (Cobb value of 37.5 g m 2), high oil resistance (Kit rating 9) and tensile strength (48.93 MPa). The reduction in water vapor transmission rate (WVTR) exceeds sixfold. This study provides a new avenue for the application of lignin in high-barrier, fluorine-free, water-and oil-resistant packaging materials. [ABSTRACT FROM AUTHOR]

Published

2024

17. Preparation of Paper-Based Fluorescent Sensors and Their Application for the Detection of Cu 2+ in Water.

Author

Ma, Yue, Li, Hui, Li, Yufeng, and Wei, Dong

Subjects

*FILTER paper, *ENVIRONMENTAL quality, *POLYETHYLENEIMINE, *ENVIRONMENTAL health, *COPPER

Abstract

Excessive copper (Cu2+) causes adverse effects on human health and the ecological environment. Traditional methods for detecting Cu2+ have drawbacks such as high detection costs, complex operating conditions, and being time consuming. Therefore, there is an urgent need to develop simple detection methods to better meet specific health and environment quality needs. In this work, a paper-based fluorescence sensor was prepared (herein referred to as the as-prepared method) by immersing filter paper in aqueous polyethyleneimine (PEI) solution, and its potential use in Cu2+ detection was investigated. The results showed that the as-prepared paper samples, with fluorescence properties obtained by aggregation-induced luminescence of PEI, have selective recognition of Cu2+ based on the internal filtration effect, and the lowest detection limit is 0.03 μM. In addition, the relative error of this method is in the range of 1.80~2.23%, which is relatively comparable to the national standard method (0.63~630 μM), demonstrating high accuracy. Therefore, paper-based sensors with a simple preparation method have potential applications in the detection of Cu2+ in water. [ABSTRACT FROM AUTHOR]

Published

2024

18. 纸基微流控电化学芯片检测农药残留的研究进展.

Author

李艳青, 宗欣荣, 陈思安, and 张 敏

Subjects

PESTICIDE pollution, FARM produce, SAMPLING (Process), AGRICULTURAL productivity, MATRIX multiplications, PESTICIDES

Abstract

Copyright of Shipin Kexue/ Food Science is the property of Food Science Editorial Department and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2024

19. Methods for Characterization and Continuum Modeling of Inhomogeneous Properties of Paper and Paperboard Materials: A Review.

Author

Sanjon, Cedric W., Yuchen Leng, Hauptmann, Marek, Groche, Peter, and Majschak, Jens-Peter

Subjects

*MECHANICAL behavior of materials, *FINITE element method, *IMPACT (Mechanics), *CARDBOARD, *MANUFACTURING processes

Abstract

The potential of paper and paperboard as fiber-based materials capable of replacing conventional polymer-based materials has been widely investigated and evaluated. Due to paper's limited extensibility and inherent heterogeneity, local structural variations lead to unpredictable local mechanical behavior and instability during processing, such as mechanical forming. To gain a deeper understanding of the impact of mechanical behavior and heterogeneity on the paper forming process, the Finite Element Method (FEM) coupled with continuum modeling is being explored as a potential approach to enhance comprehension. To achieve this goal, utilizing experimentally derived material parameters alongside stochastic finite element methods allows for more precise modeling of material behavior, considering the local material properties. This work first introduces the approach of modeling heterogeneity or local material structure within continuum models, such as the Stochastic Finite Element Method (SFEM). A fundamental challenge lies in accurately measuring these local material properties. Experimental investigations are being conducted to numerically simulate mechanical behavior. An overview is provided of experimental methods for material characterization, as found in literature, with a specific focus on measuring local mechanical material structure. By doing so, it enables the characterization of the global material structure and mechanical behavior of paper and paperboard. [ABSTRACT FROM AUTHOR]

Published

2024

20. The Influence of the Composition of Pulp and the Number of Layers on the Strength Properties of Multi-Layer Papers Intended for the Production of Corrugated Paperboard.

Author

Radomska, Karolina, Olejnik, Konrad, and Pospiech, Piotr

Subjects

*CORRUGATED paperboard, *SULFATE pulping process, *CARDBOARD, *PAPERMAKING, *TENSILE strength

Abstract

This research investigated the influence of the layered structure of paper on its selected strength properties. Two types of cellulose pulp were used: unbleached kraft pine pulp (UBSK) and unrefined bleached birch kraft pulp (BHK). Multi-ply papers were obtained from layers of appropriate grammage formed separately and bonded in a wet state. Paper layers were formed from primary pulps (UBSK and BHK) or their mixtures (threeply UBSK-BHK paper and three-ply UBSK-BHK-UBSK paper), from which various variants of laboratory paper samples were made. This work focused on three-layer papers. The obtained laboratory sheets were analysed for changes in tear resistance, tensile strength, bursting strength, short span compression strength (SCT), and corrugating medium test (CMT). In most cases, three-layer structures were characterised by higher strength parameters than single-layer papers. The tear strength and SCT of papers consisting of three layers formed from both mixed pulps were slightly lower than those of solid papers. The results demonstrate the feasibility of producing three-ply paper with significantly reduced variability in parameters such as elongation and bursting strength, which are inherently subject to high variability. [ABSTRACT FROM AUTHOR]

Published

2024

21. Mechanical Properties of Composite Materials with Dammar-based Matrices and Reinforced with Paper and Chicken Feathers Waste.

Author

Mirițoiu, Cosmin Mihai

Subjects

*MECHANICAL behavior of materials, *SYNTHETIC gums & resins, *CHICKENS, *TENSILE strength, *FURNITURE industry

Abstract

The primary aim of this research was to explore the feasibility of producing environmentally friendly composite materials by employing diverse hybrid matrices consisting of dammar natural resin, supplemented with small proportions of two synthetic resins: one epoxy and the other acrylic. A blend of paper and chicken feathers served as the reinforcing elements. The fabrication of these composite materials utilized a hand layup technique. Targeted for applications in the furniture industry or interior design, their mechanical properties were assessed through various tests. Specimens were obtained from the manufactured samples and subjected to evaluations for tensile strength, compression, flexure, vibrations, Shore hardness, and water absorption. Results indicated that irrespective of the testing method employed, the mechanical strength properties exhibited a decline with an increase in the percentage of dammar in the hybrid resins, whereas the elasticity properties demonstrated an increase with this percentage. [ABSTRACT FROM AUTHOR]

Published

2024

22. FROM RAG TO WOOD GOING THROUGH CEREAL: TECHNOLOGICAL REVOLUTION AMONG THE SCHOOL MAPS IN THE ARCHIVES OF THE UNIVERSITY OF GRANADA (SPAIN).

Author

REYES PÉREZ, Ana, GÓMEZ HERNÁNDEZ, Nuria, and ESPEJO ARIAS, Teresa

Subjects

CONSERVATION & restoration, PRINTING ink, EIGHTEENTH century, TWENTIETH century, CELLULOSE

Abstract

School maps emerged as new type of document as a result of a series of technological and educational advances spanning the 18th to the 20th century. These maps originally played strictly functional and didactic roles. The passage of time has endowed them with an indisputable historical, documentary, scientific and even artistic character. Those currently housed in archives are generally poorly preserved due to issues related to their manufacture and general lack of concern for their safeguard after losing their original function. This study aims to characterise the materials serving to manufacture them by sampling a series housed in the Archives of the University of Granada, a task that is complicated by their multilayered nature (cloth, paper, printing inks and protective varnish). Preliminary identification of the fibrous elements reinforcing the papers and textiles by means of micro-invasive analytical techniques enables to subsequently define appropriate conservation and restoration protocols. [ABSTRACT FROM AUTHOR]

Published

2024

23. A MULTI-ANALYTICAL INVESTIGATION OF AN IRANIAN LITHOGRAPHY BOOK FROM THE QAJAR PERIOD.

Author

KOOCHAKZAEI, Alireza and SAIDI MEHRABAD, Mahsa

Subjects

BOOK covers, PAPER pulp, COTTON fibers, MATERIALS analysis, CARBON-black

Abstract

The lithography books of Iran, despite their historical importance, have received relatively little attention. This study aims to comprehensively examine an Iranian lithography book from the Qajar period titled Hayat al-Qolub, to identify its materials. The paper pulp, sizing, inks and leather of the bookbinding were analyzed through various methods, including staining tests for identifying paper pulp, light microscopy, FTIR, Raman spectroscopy, Micro-spectrophotometry, multi-band imaging, SEM-EDS and LC-MS. The findings suggest that the book was made of rag paper composed of linen and cotton fibers, while animal glue and gypsum were used for paper sizing and filling, respectively. Carbon black was used as black printing ink and cochineal was used for red ink. The leather cover of the book was made of goat skin that was tanned with gallotannins and unhaired with lime. Evidence of the use of liming in the unhairing process was also observed in this leather. This research enhances our understanding of paper and bookmaking techniques of the Qajar period in Iran. [ABSTRACT FROM AUTHOR]

Published

2024

24. Effect of the Coating Formulation on the Barrier Properties and Final Appearance of Non-wettable Hybrid Paper Sheets.

Author

Evren, G., Söz, Ç. Koşak, Özomay, Z., Uzun, M., and Sönmez, S.

Subjects

POLYDIMETHYLSILOXANE, MONTMORILLONITE, KAOLIN, SUPERHYDROPHOBIC surfaces, SCANNING electron microscopy

Abstract

Thin coating layers of cross-linked polydimethylsiloxane (PDMS) and inorganic particles including glass spheres (GS), colloidal and fumed silica (aero and N20), montmorillonite (MMT), and kaolin (K) were attached onto Grade 1 Whatman filter paper (WFP) substrates using the spraycoating procedure to achieve superhydrophobic hybrid paper sheets. Coating formulations were varied in terms of their PDMS molecular masses and inorganic particles to prepare different samples. The effect of PDMS molecular weight and change in inorganic particle composition on the optical properties, surface roughness, barrier properties, surface chemistry, and topography was investigated. Hybrid paper sheets with ΔE00 values lower than 1 could be achieved, the surface roughness of which could be decreased by increasing the PDMS molecular weight in the coating formulation. Scanning electron microscopy studies revealed a homogeneous coating distribution, resulting in significant improvements in both the air and water barrier properties of the hybrid paper sheets. Spectroscopic investigations revealed the presence of interactions between the coating layer and the underlying paper substrate. Moreover, the distribution behavior of the inorganic particles on the spraycoated surfaces using the proposed method was also investigated using model compounds. [ABSTRACT FROM AUTHOR]

Published

2024

25. Mechanical Properties of Composite Materials with Dammar-based Matrices and Reinforced with Paper and Chicken Feathers Waste

Author

Cosmin Mihai Miritoiu

Subjects

chicken feathers waste, paper, dammar resin, composites, mechanical properties, Biotechnology, TP248.13-248.65

Abstract

The primary aim of this research was to explore the feasibility of producing environmentally friendly composite materials by employing diverse hybrid matrices consisting of dammar natural resin, supplemented with small proportions of two synthetic resins: one epoxy and the other acrylic. A blend of paper and chicken feathers served as the reinforcing elements. The fabrication of these composite materials utilized a hand layup technique. Targeted for applications in the furniture industry or interior design, their mechanical properties were assessed through various tests. Specimens were obtained from the manufactured samples and subjected to evaluations for tensile strength, compression, flexure, vibrations, Shore hardness, and water absorption. Results indicated that irrespective of the testing method employed, the mechanical strength properties exhibited a decline with an increase in the percentage of dammar in the hybrid resins, whereas the elasticity properties demonstrated an increase with this percentage.

Published

2024

26. Modified Fibrous Mass of Leather and Paper Waste for the Production of Packaging Paper and Cardboard

Author

Adham Rafikov, Nargis Kadirova, and Gulnoza Jurayeva

Subjects

leather, paper, waste, packaging paper, cardboard, alkaline modification, collagen, Textile bleaching, dyeing, printing, etc., TP890-933, Large industry. Factory system. Big business, HD2350.8-2356

Abstract

Recycling leather waste, which accumulates in large quantities in tanneries, and producing packaging paper with improved properties reduces the environmental burden and is at the same time economically efficient. A modified fibrous mass of waste from tanned and untanned leather scraps, waste paper, and acrylic emulsion was obtained and packaging paper based on them was produced. Alkaline modification of tanned leather waste - chrome shavings - leads to an increase in the electrokinetic potential and, accordingly, the stability of the fibrous suspension, partial hydrolysis of skin collagen occurs with the formation of new polar groups, and at the same time, the degree of cross-linking of the skin increases. In the paper composition, new intermolecular bonds are formed between cellulose and skin collagen. The microstructure, elemental composition, morphology, thermal and physical-mechanical properties of modified chrome shavings and composite paper were determined. A significant improvement has been achieved in the main parameters of paper: surface density (decrease by 16-25%), breaking load and breaking length (increase by 15-23%), number of double bends (increase by 2-6 times) in comparison with paper obtained from pure waste paper, and also to a greater extent compared to paper obtained from unmodified leather waste.

Published

2024

27. Chemicals leach into foods

Subjects

Volatile organic compounds, Paper, Phthalates, Plastic containers

Abstract

Of the 14,000 chemicals used in food processing and packaging, 3,601 leach into our food and end up in our bodies, a new study has found. These compounds are found [...]

Published

2024

28. Trends in Paper-Based Sensing Devices for Clinical and Environmental Monitoring

Author

Kummari, Shekher, Panicker, Lakshmi R, Bommi, Jagadeeswara Rao, Karingula, Sampath, Kumar, Venisheety Sunil, Mahato, Kuldeep, and Goud, Kotagiri Yugender

Subjects

Analytical Chemistry, Chemical Sciences, Bioengineering, Detection, screening and diagnosis, 4.1 Discovery and preclinical testing of markers and technologies, Paper, Ecosystem, Biosensing Techniques, Environmental Monitoring, Environmental Pollutants, Electrochemical Techniques, biosensors, clinical diagnostics, electrochemical sensors, environmental monitoring, optical sensors, paper-based sensing devices, Biochemistry and Cell Biology, Biochemistry and cell biology, Analytical chemistry

Abstract

Environmental toxic pollutants and pathogens that enter the ecosystem are major global issues. Detection of these toxic chemicals/pollutants and the diagnosis of a disease is a first step in efficiently controlling their contamination and spread, respectively. Various analytical techniques are available to detect and determine toxic chemicals/pathogens, including liquid chromatography, HPLC, mass spectroscopy, and enzyme-linked immunosorbent assays. However, these sensing strategies have some drawbacks such as tedious sample pretreatment and preparation, the requirement for skilled technicians, and dependence on large laboratory-based instruments. Alternatively, biosensors, especially paper-based sensors, could be used extensively and are a cost-effective alternative to conventional laboratory testing. They can improve accessibility to testing to identify chemicals and pollutants, especially in developing countries. Due to its low cost, abundance, easy disposal (by incineration, for example) and biocompatible nature, paper is considered a versatile material for the development of environmentally friendly electrochemical/optical (bio) sensor devices. This review presents an overview of sensing platforms constructed from paper, pointing out the main merits and demerits of paper-based sensing systems, their fabrication techniques, and the different optical/electrochemical detection techniques that they exploit.

Published

2023

29. Eco-Friendly Poly (Butylene Adipate- co -Terephthalate) Coated Bi-Layered Films: An Approach to Enhance Mechanical and Barrier Properties.

Author

Venkatesan, Raja, Alagumalai, Krishnapandi, Vetcher, Alexandre A., Al-Asbahi, Bandar Ali, and Kim, Seong-Cheol

Subjects

*BUTENE, *POLYBUTENES, *CONTACT angle, *FOOD packaging, *PACKAGING film, *ANALYTICAL chemistry, *POLYETHYLENE terephthalate

Abstract

In this research work, a coated paper was prepared with poly (butylene adipate-co-terephthalate) (PBAT) film to explore its use in eco-friendly food packaging. The paper was coated with PBAT film for packaging using hot pressing, a production method currently employed in the packaging industry. The coated papers were evaluated for their structural, mechanical, thermal, and barrier properties. The structural morphology and chemical analysis of the coated paper confirmed the consistent formation of PBAT bi-layered on paper surfaces. Surface coating with PBAT film increased the water resistance of the paper samples, as demonstrated by tests of barrier characteristics, including the water vapor transmission rate (WVTR), oxygen transmission rate (OTR), and water contact angle (WCA) of water drops. The transmission rate of the clean paper was 2010.40 cc m−2 per 24 h for OTR and 110.24 g m−2 per 24 h for WVTR. If the PBAT-film was coated, the value decreased to 91.79 g m−2 per 24 h and 992.86 cc m−2 per 24 h. The hydrophobic nature of PBAT, confirmed by WCA measurements, contributed to the enhanced water resistance of PBAT-coated paper. This result presents an improved PBAT-coated paper material, eliminating the need for adhesives and allowing for the fabrication of bi-layered packaging. [ABSTRACT FROM AUTHOR]

Published

2024

30. Unveiling Polychrome Printing Methods on Textiles: Preliminary Results from the Mariano Fortuny y Madrazo Collection in Venice

Author

Virginia Farinelli, Laura Falchi, Cristina da Roit, Margherita Gnemmi, and Francesca Caterina Izzo

Subjects

continuous printing, resist printing, Mariano Fortuny y Madrazo, paper, fabric, 20th century industrial printing, Archaeology, CC1-960

Abstract

At the beginning of the 20th century, the eclectic artist Mariano Fortuny y Madrazo patented two innovative methods for polychrome printing on fabrics and textiles, giving life to Fortuny fabric production in Venice. The first patent was related to colour application, while the second to a special machine that allows continuous printing using cylindrical rollers. Despite the descriptions, the methodology and materials used remain a secret. In collaboration with the Fortuny Museum in Venice, this research aimed at studying and identifying the different steps of Fortuny printing methodologies. Printing matrices, fabrics and raw materials found in the artist’s studio were analysed in a multi-analytical campaign through digital microscopy, X-ray fluorescence (XRF), Fourier-transform infrared spectroscopy in attenuated total reflectance (FTIR-ATR), μ-Raman spectroscopy and gas chromatography–mass spectrometry (GC–MS). Three main pigments were identified in paper samples: ivory black, a copper-based pigment, and a carbon black pigment with ultramarine for blues. The pigments were bound with linseed oil and colophony in varying proportions. Polychrome silk fabrics were dyed with a base colour, and then the coloured patterns were superimposed by continuous printing. Prussian blue was identified as one of the textile inks. Results provided a better understanding of printing methodology.

Published

2024

31. Sustainable Paper-based Packaging from Hemp Hurd Fiber: A Potential Material for Thermoformed Molded Fiber Packaging

Author

Chi Hou Lo, Kelly R. Wade, Kate G. Parker, Anthony N. Mutukumira, and Michelle Sloane

Subjects

industrial hemp hurd, handsheet, paper, thermoforming, mechanical properties, Biotechnology, TP248.13-248.65

Abstract

Hemp hurd fiber, a low-value waste stream from the hemp industry, has potential downstream applications as an alternative to non-renewable plastics for single-use food service ware and packaging applications. Packaging paper substrates made from chemically pulped hemp hurd, mixed in varying ratios with bleached thermomechanical radiata pine pulp were developed and tested. Handsheets were characterized using several mechanical property tests including tensile strength, tearing resistance, burst strength, short-span compression, ring crush, together with Gurley air resistance, contact angle, and Cobb60 tests. Generally, addition of hemp hurd fibers significantly improved handsheet mechanical properties. Hot-pressing of the handsheets so as to approximate molded fiber thermoforming further enhanced their performance, with pure hemp hurd handsheets having the highest mechanical properties and barrier performance. A prototype was successfully thermoformed from hemp fiber, demonstrating overall feasibility of this fibre source for molded fibre objects.

Published

2024

32. Data Mining for the Characterization of a Paper Prototype Obtained with Bacterial Cellulose Derived from Banana and Pineapple By-Products

Author

Juan Diego Valenzuela-Cobos, Simón Pérez-Martínez, Manuel Fiallos-Cárdenas, and Fabricio Guevara-Viejó

Subjects

agricultural residues, bacterial cellulose, carbon source, culture medium, multivariate statistics, paper, Technology, Engineering (General). Civil engineering (General), TA1-2040, Biology (General), QH301-705.5, Physics, QC1-999, Chemistry, QD1-999

Abstract

The primary objective of this research is to evaluate the feasibility of two of the most prevalent agricultural residues in Ecuador, banana peels and pineapple peels, as a carbon source in the culture medium of Komagataeibacter hansenii for the production of bacterial cellulose (BC) and BC-based paper. This analysis includes an assessment of the productivity parameters of the obtained BC and the quality parameters of the BC-based paper, employing multivariate statistical methodologies. The experimental design consisted of fifteen treatments: T1 served as the control using the standard HS medium, while treatments T2–T8 used banana peel extracts (BPE), and treatments T9–T15 used pineapple peel extracts (PPE) at concentrations from 10% to 40% (v/v). Extracts were prepared with tailored pretreatments for each type of peel to optimize bioactive compound recovery. Standardized fermentation and purification conditions were applied, and once the cellulose was obtained, additives and coating agents were incorporated to produce paper samples from each treatment. The results indicated that higher BPE concentrations (T5, T6, T7, and T8) correlated significantly with increased Weight and Yield of BC, as well as improved grammage and water content in the BC-based paper. This highlights that efficient paper production is influenced by the quality of the bacterial cellulose used, with BPE-based media yielding optimal results due to their nutrient composition, which promotes bacterial growth and metabolic activity. This approach suggests a pathway for advancing sustainable and economical paper production.

Published

2024

33. Unique Triboelectric Nanogenerator Using Carbon Nanotube Composite Papers

Author

Kazuki Okochi and Takahide Oya

Subjects

carbon nanotube, triboelectric nanogenerator (TENG), paper, carbon nanotube composite paper, energy harvester, Technology, Engineering (General). Civil engineering (General), TA1-2040, Biology (General), QH301-705.5, Physics, QC1-999, Chemistry, QD1-999

Abstract

A unique triboelectric nanogenerator (TENG) using carbon nanotube (CNT) composite papers is proposed in this work. CNT composite papers can be fabricated easily using a method based on the production of Japanese washi paper. To obtain and evaluate the proposed TENGs, several types of CNT composite papers and aluminum plates were prepared. As the CNT composite paper contained many paper fibers, it was expected to be negatively charged, and the aluminum plate was expected to be positively charged across the triboelectric series. Through various experiments, it was confirmed that CNT composite papers could be used as TENGs. In addition, it was found that when a CNT composite paper was used, it contributed to triboelectricity generation, and the contained CNTs efficiently transferred the generated charge to the electrodes. Furthermore, output voltages approaching a maximum RMS value of 300 mV could be obtained. The results of this study will aid in the practical application of paper-based TENGs in the near future.

Published

2024

34. Unveiling Polychrome Printing Methods on Textiles: Preliminary Results from the Mariano Fortuny y Madrazo Collection in Venice.

Author

Farinelli, Virginia, Falchi, Laura, da Roit, Cristina, Gnemmi, Margherita, and Izzo, Francesca Caterina

Subjects

*TEXTILE printing, *CHEMOTAXONOMY, *ATTENUATED total reflectance, *ART materials, *GAS chromatography/Mass spectrometry (GC-MS), *LINSEED oil, *INK-jet printing, *TEXTILE dyeing

Abstract

At the beginning of the 20th century, the eclectic artist Mariano Fortuny y Madrazo patented two innovative methods for polychrome printing on fabrics and textiles, giving life to Fortuny fabric production in Venice. The first patent was related to colour application, while the second to a special machine that allows continuous printing using cylindrical rollers. Despite the descriptions, the methodology and materials used remain a secret. In collaboration with the Fortuny Museum in Venice, this research aimed at studying and identifying the different steps of Fortuny printing methodologies. Printing matrices, fabrics and raw materials found in the artist's studio were analysed in a multi-analytical campaign through digital microscopy, X-ray fluorescence (XRF), Fourier-transform infrared spectroscopy in attenuated total reflectance (FTIR-ATR), μ-Raman spectroscopy and gas chromatography–mass spectrometry (GC–MS). Three main pigments were identified in paper samples: ivory black, a copper-based pigment, and a carbon black pigment with ultramarine for blues. The pigments were bound with linseed oil and colophony in varying proportions. Polychrome silk fabrics were dyed with a base colour, and then the coloured patterns were superimposed by continuous printing. Prussian blue was identified as one of the textile inks. Results provided a better understanding of printing methodology. [ABSTRACT FROM AUTHOR]

Published

2024

35. Enhancing Hydrophobic Properties in Olive Oil-Coated Papers through Thermal Treatment.

Author

Loesch-Zhang, Amelia, Meckel, Tobias, Biesalski, Markus, and Geissler, Andreas

Subjects

CONTACT angle, VEGETABLE storage, OLIVE oil, CHEMICAL reactions, VEGETABLE oils, OLIVE

Abstract

Enhancing paper hydrophobicity is of key importance for many paper-based applications. Fatty acids or vegetable oils and their derivatives replace environmentally harmful conventional coating materials but still require challenging chemical reactions for covalent attachment onto paper. Here, we show that simple storage of olive oil-coated cotton linter paper at 70 °C and subsequent Soxhlet extraction is able to endow paper with hydrophobic properties, reaching water contact angles above 130°. In-depth chemical and morphological analytics show the relevance of temperature and air accessibility during the aging process compared with aging at ambient temperature and under the exclusion of oxygen, underlining the importance of assessing a coating's long-term performance and stability under diverse storage conditions. Simple storage of vegetable oil-coated paper at elevated temperatures followed by extraction proves to be an easy way to produce stable covalently attached hydrophobic paper coatings with exceptionally low coating amounts. [ABSTRACT FROM AUTHOR]

Published

2024

36. A Methodological Framework for Decomposing the Value-Chain Economic Contribution: A Case of Forest Resource Industries of the Lake States in the United States.

Author

Gc, Shivan, Thapa, Ichchha, Pokharel, Raju, Alward, Greg, Lamsal, Basanta, Poudel, Jagdish, Dahal, Ram, Joshi, Omkar, Parajuli, Rajan, Wagner, John, and Leefers, Larry

Subjects

FORESTS & forestry, FOREST products industry, LOGGING, PAPER mills, MATRIX decomposition, SECONDARY forests, BIOMASS conversion

Abstract

The forest products industries play a vital role in the economic, social, and environmental well-being of the Lake States in the United States. While various economic contribution analyses of forest products industries have been conducted to highlight the importance of such industries to regional economies, little effort has yet been made to parse out the contribution of activities in the value chain. The value chain is a series of steps involved in producing goods or services. This study used a matrix decomposition approach to estimate the economic contribution along the value chain through multiple pathways of four forest resource-based industries using wood as inputs: biomass power generation, sawmills, paper mills, and the construction of new single-family residential structures in the Lake States. The direct and indirect economic output values in 2017 resulting from the construction of new single-family residential structures were $19.1 billion, sawmills were $2.5 billion, paper mills were $17.6 billion, and the biomass power generation industry was $759 million. Of the direct and indirect economic output contributed by each industry, the highest percentage of output attributable to the logging industry was observed from the sawmills industry (12%), followed by biomass power generation (9%), paper mills (1.4%), and the construction of new single-family residential structures (<1%), respectively. The percentage of total economic output attributable to the stumpage industry in the region followed a similar trend as commercial logging for all value-chain industries. The relative economic contribution of the value-chain industries to the total economic contribution of the final industry varied based on whether the industry was a primary or secondary forest products industry and the pathways used for sourcing wood inputs. [ABSTRACT FROM AUTHOR]

Published

2024

37. Ionic Liquids as Potential Cleaning and Restoration Agents for Cellulosic Artefacts.

Author

Croitoru, Catalin and Roata, Ionut Claudiu

Subjects

CLEANING compounds, COLORIMETRIC analysis, IONIC solutions, TENSILE strength, CULTURAL property, IONIC liquids, LIGNOCELLULOSE

Abstract

This study explores the efficacy of 1-hexyl-3-methylimidazolium bis(trifluoromethylsulfonyl)imide and 1-hexyl-3-methylimidazolium chloride as cleaning agents for aged cellulosic artifacts. A 10% v/v acetone solution of these ionic liquids (ILs) effectively removes the brownish-yellow color of aged paper in a 10 min immersion treatment. Colorimetric analysis shows a remarkable increase in lightness (L*) by up to 40% and a decrease in red/brownish tones (b*) after IL treatment. The cleaning process also deacidifies the paper, shifting the pH to neutral-slightly basic levels and enhancing its long-term stability. Optimal pH outcomes are achieved, with ionic liquid consumption values of 0.4–0.6 g/g of paper. The FTIR analysis revealed structural changes in cellulose induced by the washing step, which is mainly due to the reorganization effect imparted by the ionic liquids. Furthermore, ILs mobilized degraded compounds and acidic species, aiding in their extraction during the restoration process. Mechanical testing indicated an enhancement in the overall tensile strength and strain at break values for IL-treated papers by up to 33%. This study demonstrates the multiple benefits of alkylimidazolium ionic liquids for preserving and restoring cultural heritage artifacts made of cellulosic materials. [ABSTRACT FROM AUTHOR]

Published

2024

38. Time Scales of Spontaneous Imbibition into Porous Material: From Classic Models to Papers Applications.

Author

Bloch, Pierre-Yves, Olejnik, Konrad, Bloch, Jean-Francis, Bloch, Alexandre, Hammond, Jules, and Brissaud, Daniel

Subjects

*CONTACT angle, *PROPERTIES of fluids, *FLUID control, *FLUID flow, *IMAGE analysis

Abstract

Flow and spontaneous imbibition phenomena in porous media are important for various industrial applications, including printing and medical lateral flow assays. Their quantitative characterization is important to better understand and select the appropriate raw materials. However, standard methods often require time-consuming tests, and/or expensive equipment. Different time scales must be considered, limiting the range of possible characterization tools. A novel experimental approach based on image analysis for characterizing spontaneous imbibition processes is presented. Hence, ultra-fast diffusion may be quantitatively characterized. Models are issued from the literature to consider physical phenomena at small (milliseconds) and medium range (seconds) of time scales. The obtained experimental data fit with theoretical results, providing valuable insights into the understanding of fluid flow behavior at different time scales. Furthermore, the identification of some physical properties for either the fluid, or the substrate, based on the theoretical models are possible, as the contact angle, which remains to be otherwise challenging. This study contributes to bridging the gap between spontaneous imbibition and capillary phenomena at different time scales, their modeling, and a characterization of material and/or fluid properties paving the way for enhanced understanding and control of fluid behavior in porous media. Different papers are considered to illustrate the method. [ABSTRACT FROM AUTHOR]

Published

2024

39. Quantification of the Influence of Ink Penetration and Optical Ink Density on the Print-through of Printed Straw-Based Papers.

Author

Bates, Irena, Plazonić, Ivana, Rudolf, Maja, and Bratić, Diana

Subjects

TRITICALE, OPACITY (Optics), WHEAT straw, MULTIPLE regression analysis, AGRICULTURAL wastes, PHASE coding, RECYCLED paper, REGRESSION analysis

Abstract

In recent years, due to environmental awareness regarding the harmfulness of polymeric materials, there has been a growing interest in using papers, especially those from alternative raw materials. The importance of using all available raw materials is imperative today. Raw materials that were once viewed as waste are now of great importance because they have the ability to replace raw materials that are used irrationally or are lacking. Cereal straw is a lignocellulosic material that could be used in the paper industry and in the production of increasingly prevalent paper packaging. The aim of this research was to analyze the relationships between the qualitative parameters of straw-based printed papers containing 30% agricultural residues (wheat, barley, or triticale). The influence of two qualitative parameters (ink penetration depth and optical ink density) on the print-through was observed using multiple regression analysis on straw-based papers produced at the laboratory level. Throughout the research, 100% recycled wood paper was used as a reference sample. The results of the regression analysis showed that none of the variables individually make a statistically significant contribution to the prediction of the dependent variable in a linear context, that is, they indicate a non-linear interaction between the variables and the specific conditions under which the dependent variable reaches local extremes and changes in the gradient. Considering the results of the regression analysis and the visualization of the relationship, the model was additionally tested with other independent variables (paper type). From the results obtained, it can be concluded that the alternative straw-based paper with 30% barley pulp has the best interaction between ink and paper, which is the most similar to the reference sample in terms of printability, while the alternative straw-based paper with 30% wheat generally differs significantly from the reference paper when all three prints are considered. [ABSTRACT FROM AUTHOR]

Published

2024

40. STUDY ON THE USE OF PAPER WASTE AS AN ALTERNATIVE SUBSTRATE FOR FICUS BENJAMINA SPECIES.

Author

BUZATU, Gilda-Diana, DODOCIOIU, Ana Maria, and MANDA, Manuela

Subjects

WASTE paper, WASTE management, FICUS (Plants), ORNAMENTAL plants, PLANT growing media

Abstract

The main objective of the paper was to establish the effectiveness of paper waste added to a growth medium, avoiding waste management processes, which require time and energy, but providing an efficient solution for using paper waste as a nutrient substrate for plants cultivated in containers. It was specifically aimed to evaluate the percentage of peat that could be replaced by waste paper for the ornamental plant Ficus benjamina cv. 'Golden King' in an experiment with 4 variants in 3 repetitions (V1 - 100% peat, V2 - 80% peat+20 % paper waste, V3 - 70% peat+30% paper waste, V4 -50% peat+50% paper waste) in 2023. In conclusion, based on the research carried out, it can be stated that paper waste mixed with peat in a proportion of 30% can be used as an alternative substrate. [ABSTRACT FROM AUTHOR]

Published

2024

41. ОПЫТ ИНСТИТУТА ВОСТОКОВЕДЕНИЯ ПО РЕСТАВРАЦИИ ДРЕВНИХ РУКОПИСНЫХ ИСТОЧНИКОВ.

Author

Ходжаева, Башорат

Abstract

Copyright of Information Library Magazine 'INFOLIB' is the property of National Library of Uzbekistan named after Alisher Navoi and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2024

42. ҲУЖЖАТЛАШТИРИЛАДИГАН АХБОРОТЛАРНИ ТАШУВЧИ ВОСИТАЛАРИНИНГ УМУМИЙ ХУСУСИЯТЛАРИ, ЭВОЛЮЦИЯСИ ВА ТАСНИФИ.

Author

Алиев, Анвар

Abstract

Copyright of Information Library Magazine 'INFOLIB' is the property of National Library of Uzbekistan named after Alisher Navoi and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2024

43. What we can learn from books in the digital age

Author

Michael Stamm

Subjects

paper, ink, materiality, print, sustainability, recycling, media revolution, Communication. Mass media, P87-96, Social Sciences

Abstract

Though books are often considered “old media” in the digital age, their production in this period in fact has been continually reimagined and redefined through new technologies of printing, especially paper and ink manufacturing. This paper explores how three specific recent printed books demonstrate this point in both form and content: David Brower’s Let the Mountains Talk, Let the Rivers Run (1995), William McDonough and Michael Braungart’s Cradle to Cradle (2002), and the 2008 Harper-Collins Green Bible. Brower’s book was printed on paper made from kenaf, a sustainable alternative to wood-based paper. Cradle to Cradle was printed on a synthetic polymer that could be endlessly remade into other products. The Green Bible was printed on recycled paper and used soy-based ink, and all verses with environmental content were printed in green. In each case, in form these printed books were meant to model innovative industrial information production while also through their content to motivate enhanced environmental consciousness.

Published

2023

44. Establishing the original order of the poems in Harward’s Almanac using paleography, codicology, X-ray fluorescence spectroscopy, and statistical analysis

Author

Veronica Biolcati, James Woolley, Élodie Lévêque, Andrea Rossi, Anna Grace Hoffmann, Andrea Visentin, Pádraig Ó Macháin, and Daniela Iacopino

Subjects

Paleography, Codicology, Manuscript studies, Inks, Paper, X-ray fluorescence, Fine Arts, Analytical chemistry, QD71-142

Abstract

Abstract This work presents the results of a transdisciplinary analysis performed on Harward’s Almanac (Dublin, 1666), an extremely rare volume currently housed in the National Library of Ireland. The uniqueness and historical value of the Almanac is related to the presence of nineteen handwritten poems, entered by an anonymous scribe. These record textually important English clandestine satire circulating anonymously in Dublin in the late seventeenth and early eighteenth century. Following a comprehensive historical assessment, it appeared evident that the current order of leaves was incorrect. To reconstruct the correct order of the leaves, and hence the likely sequence in which the manuscript poems were inscribed, this study employed a codicological/paleographic analysis complemented by analytical (X-ray fluorescence, XRF) and statistical (Self Organizing Map, SOM) investigation. Specifically, point XRF analysis was carried out for each handwritten page of the Almanac, allowing identification of ink elemental compositions (iron-based ink) and successfully supporting the validity of historical hypotheses on the poems’ order of inscription. The statistical organization of XRF data by SOMs allowed easy bi-dimensional visualization of the data set (54 points) and identification of ink similarities, once more validating the historical assessment.

Published

2023

45. Time Scales of Spontaneous Imbibition into Porous Material: From Classic Models to Papers Applications

Author

Pierre-Yves Bloch, Konrad Olejnik, Jean-Francis Bloch, Alexandre Bloch, Jules Hammond, and Daniel Brissaud

Subjects

fluids, spontaneous imbibition, paper, porous media, characterization, contact angle, interfacial tension, dynamic, experimental tool, wettability, Biotechnology, TP248.13-248.65

Abstract

Flow and spontaneous imbibition phenomena in porous media are important for various industrial applications, including printing and medical lateral flow assays. Their quantitative characterization is important to better understand and select the appropriate raw materials. However, standard methods often require time-consuming tests, and/or expensive equipment. Different time scales must be considered, limiting the range of possible characterization tools. A novel experimental approach based on image analysis for characterizing spontaneous imbibition processes is presented. Hence, ultra-fast diffusion may be quantitatively characterized. Models are issued from the literature to consider physical phenomena at small (milliseconds) and medium range (seconds) of time scales. The obtained experimental data fit with theoretical results, providing valuable insights into the understanding of fluid flow behavior at different time scales. Furthermore, the identification of some physical properties for either the fluid, or the substrate, based on the theoretical models are possible, as the contact angle, which remains to be otherwise challenging. This study contributes to bridging the gap between spontaneous imbibition and capillary phenomena at different time scales, their modeling, and a characterization of material and/or fluid properties paving the way for enhanced understanding and control of fluid behavior in porous media. Different papers are considered to illustrate the method.

Published

2023

46. Effect of Chemical Crosslinking on the Biodegradation Rate of Kraft Paper

Author

Antti Korpela, Atsushi Tanaka, and Jaakko Asikainen

Subjects

paper, crosslinking, biodegradability, paper properties, kraft fibers, Biotechnology, TP248.13-248.65

Abstract

Wood-based paper fibers are inherently biodegradable. In contact with moist soil and in compost, papermaking fibers are readily broken down by soil microbes. Resistance to biodegradation is needed, as paper is used for special applications such as mulching in agriculture and forestry, the coating of construction materials, and for packing and wrapping under conditions where packaging materials may be exposed to contact with moist soil or other type microbial active contamination. A preceding study showed that paper chemical crosslinking with glyoxal, citric acid (CA), or methylated 1,3-dimethylol-4,5-dihydroxyethylene urea (mDMDHEU) results in substantially improved paper wet strength and lower paper water absorbency. The present study examined the efficiency of chemical crosslinking treatments with CA and with mDMDHEU to decrease the biodegradation rate of laboratory paper sheets and a sack paper, both made of kraft fibers. The biodegradation was examined using a 48-h enzymatic degradation test and a 2-month soil burial test. The results indicate that chemical crosslinking is an effective non-biocidal method for making sulphate kraft paper more resistant to biodegradation. In some end-uses, improved resistance to biodegradation, along with improved paper wet performance, can enhance paper performance comparable to plastic films.

Published

2023

47. The potential of fibre optic UV-Vis-NIR spectroscopy to distinguish vital and devitalised forms of microbial contamination of paper substrates

Author

Patrícia Paračková, Michal Čeppan, Barbora Kaliňáková, Milena Reháková, and Lukáš Gál

Subjects

Filamentous fungi, Biodeterioration, Fibre optics reflection spectroscopy, Cultural heritage, Paper, Principal component analysis, Fine Arts, Analytical chemistry, QD71-142

Abstract

Abstract Microorganisms, especially microscopic filamentous fungi, represent one of the most significant factors influencing the degradation of cultural heritage cellulosic objects. Early detection, identification and characterisation of microbial communities can help select a suitable conservation intervention and, in addition, allow possible control of its effectiveness. A combination of spectral methods and statistical data processing appears to be a suitable alternative to conventional methods for monitoring microbial contamination. The main goal of the presented research was the investigation of the spectral properties of vital and devitalised filamentous fungi Alternaria alternata, Aspergillus niger, Cladosporium herbarum, Penicillium chrysogenum, and Trichoderma atroviride, inoculated on a paper substrate Whatman in two phases—dormant (conidia) and active (mycelium). The combination of the UV-Vis-NIR and NIR Fibre Optics Reflection Spectroscopy (FORS) with the Principal Component Analysis (PCA) was set to determine whether the spectra of vital and devitalised forms of studied samples differ. The obtained results prove differences between the spectra of vital and devitalised forms of filamentous fungi, at least in one studied spectral region. Therefore, UV-Vis-NIR and NIR FORS combined with PCA seems to be a promising tool for monitoring paper-based objects' microbial contamination.

Published

2023

48. Composting paper and grass clippings with anaerobically treated palm oil mill effluent

Author

A. Y. Zahrim, P. S. Leong, S. R. Ayisah, J. Janaun, K. P. Chong, F. M. Cooke, and S. K. Haywood

Subjects

Composting, Paper, Grass, Anaerobic palm oil mill effluent, Phytotoxicity, Agriculture (General), S1-972, Environmental technology. Sanitary engineering, TD1-1066

Abstract

Purpose The purpose of this study is to investigate the composting performance of anaerobically treated palm oil mill effluent (AnPOME) mixed with paper and grass clippings. Methods Composting was conducted using a laboratory scale system for 40 days. Several parameters were determined: temperature, mass reduction, pH, electrical conductivity, colour, zeta potential, phytotoxicity and final compost nutrients. Results The moisture content and compost mass were reduced by 24 and 18 %, respectively. Both final compost pH value and electrical conductivity were found to increase in value. Colour (measured as PtCo) was not suitable as a maturity indicator. The negative zeta potential values decreased from -12.25 to -21.80 mV. The phytotoxicity of the compost mixture was found to decrease in value during the process and the final nutrient value of the compost indicates its suitability as a soil conditioner. Conclusions From this study, we conclude that the addition of paper and grass clippings can be a potential substrate to be composted with anaerobically treated palm oil mill effluent (AnPOME). The final compost produced is suitable for soil conditioner.

Published

2024

49. Long term curl of printing paper due to ink solvent migration

Author

Alexander Maass and Ulrich Hirn

Subjects

Curl, Paper, Inkjet Printing, Dimensional Stability, Glycerol Migration, Materials of engineering and construction. Mechanics of materials, TA401-492

Abstract

The dimensional stability of paper during printing is crucial for ensuring production quality and runnability. However, inkjet printing faces inherent challenges due to the hygroscopic nature of paper and the use of water-based inks. Despite freshly printed sheets are flat, a considerable development of paper curl is often observed during storage. In this study, we establish the link between the migration of ink co-solvents and the long-term curl development of printed paper. A4 paper sheets were sprayed with a water-glycerol model ink and changes in the sheet's curvature were monitored using a 2D-laser sensor. We also investigated glycerol migration by splitting the sheets into layers and determining the glycerol distribution using high-performance liquid chromatography. Our results demonstrate the development of curl during storage as well as glycerol migration in thickness direction of the sheet, both on a comparable timescale. We thus propose that long term curl in inkjet printing can be caused by z-directional migration of the co-solvent (glycerol) over time. This study enhances understanding of the physical mechanisms that drive the long-term curl phenomenon in inkjet-printed sheets. The results can be used to optimize printing processes, allowing for the production of higher quality printed products with greater dimensional stability.

Published

2024

50. Establishing the original order of the poems in Harward's Almanac using paleography, codicology, X-ray fluorescence spectroscopy, and statistical analysis.

Author

Biolcati, Veronica, Woolley, James, Lévêque, Élodie, Rossi, Andrea, Hoffmann, Anna Grace, Visentin, Andrea, Macháin, Pádraig Ó, and Iacopino, Daniela

Subjects

*X-ray fluorescence, *FLUORESCENCE spectroscopy, *PALEOGRAPHY, *X-ray spectroscopy, *ALMANACS, *INSCRIPTIONS

Abstract

This work presents the results of a transdisciplinary analysis performed on Harward's Almanac (Dublin, 1666), an extremely rare volume currently housed in the National Library of Ireland. The uniqueness and historical value of the Almanac is related to the presence of nineteen handwritten poems, entered by an anonymous scribe. These record textually important English clandestine satire circulating anonymously in Dublin in the late seventeenth and early eighteenth century. Following a comprehensive historical assessment, it appeared evident that the current order of leaves was incorrect. To reconstruct the correct order of the leaves, and hence the likely sequence in which the manuscript poems were inscribed, this study employed a codicological/paleographic analysis complemented by analytical (X-ray fluorescence, XRF) and statistical (Self Organizing Map, SOM) investigation. Specifically, point XRF analysis was carried out for each handwritten page of the Almanac, allowing identification of ink elemental compositions (iron-based ink) and successfully supporting the validity of historical hypotheses on the poems' order of inscription. The statistical organization of XRF data by SOMs allowed easy bi-dimensional visualization of the data set (54 points) and identification of ink similarities, once more validating the historical assessment. [ABSTRACT FROM AUTHOR]

Published

2023