Your search keyword '"FT-IR"' showing total 4,293 results

1. FoodStore: Food storage in the late Fifth, Fourth and Third millennia BC in the Northern Fertile Crescent

Author

Tumolo, Valentina

Subjects

storage, Fertile Crescent, micromorphology, phytolith analysis, FT-IR

Published

2024

2. FT-IR Spectroscopy Analysis of Kidney Stone Variability in Styria.

Author

Wregg, Christoph, Rosenlechner, Dominik, Zach, Verena, Eigenfeld, Marco, Stabentheiner, Edith, Ahyai, Sascha, and Schwaminger, Sebastian P.

Subjects

KIDNEY stones, CALCIUM oxalate, URINARY calculi, ELECTRON spectroscopy, SCANNING electron microscopy

Abstract

Urolithiasis is a medically significant crystallization process affecting the urinary tract. Kidney stones exhibit considerable diversity as they form in complex environments containing various molecules and pathogens. Understanding the formation and occurrence of kidney stones is essential for developing strategies to prevent or reduce the invasiveness of treatments. In this study, we investigated over 300 cases of urolithiasis in Styria, Austria. The composition of the stones was evaluated using infrared spectroscopy and scanning electron microscopy. Most stones were found to be heterogeneous, predominantly composed of calcium oxalate, followed by calcium phosphate. Other components such as struvite, uric acid, and cystine were present to a lesser extent and were more likely to form homogeneous crystals. Analyzing the occurrence of these different stone types provides valuable insights into the formation processes of kidney stones and can aid in the prevention of urolithiasis in the future. [ABSTRACT FROM AUTHOR]

Published

2024

3. Enhancing Herbal Efficacy: Synthesis and Evaluation of Nanosuspension from Withania somnifera Root Extract.

Author

Chauriya, Chandrashekhar, Sahu, Mahesh, Kumar, Vikas, and Verma, Amita

Subjects

FIELD emission electron microscopy, WITHANIA somnifera, PLANT extracts, ZETA potential, HERBAL medicine

Abstract

Background: Ayurveda emphasizes the balance of mind, body, and spirit, drawing on ancient texts that highlight the medicinal properties of herbs like Withania somnifera, known for its wide range of therapeutic applications and pharmacological benefits. Commonly referred to as Indian ginseng or Ashwagandha, Withania somnifera, demonstrates a variety of therapeutic effect, including anti-inflammatory, antitumor, sedative, hypnotic, deobstruent effects, narcotic, antioxidant, tonic, antistress, diuretic, aphrodisiac, immunomodulatory, and rejuvenating properties. Nanotechnology, particularly through the development of nanosuspensions, offers a significant advancement in medicine, addressing challenges like poor solubility and low bioavailability of lipophilic drugs. Nanosuspensions can enhance drug safety and efficacy by improving solubility and altering pharmacokinetics. Methods: This study focuses on formulating and characterizing a nanosuspension using an ethanolic extract of Withania somnifera roots. The nanosuspension (NSWS) underwent comprehensive characterization, utilizing techniques such as FT-IR spectroscopy, particle size analysis, zeta potential measurement, polydispersity index (PDI) assessment, Field emission scanning electron microscopy (FESEM), X-ray diffraction analysis, pH measurement, and stability testing. This study seeks to explore the potential of nanosuspensions, aiming to integrate nanotechnology with herbal medicine to improve the safety and efficacy of herbal formulations. Results: The nanosuspension (NSWS) shown particle size about 133.09 nm, and its uniform particle distribution was indicated by a Polydispersity Index (PDI) about 0.27. Stability and uniformity were further supported by the zeta potential, particle size, and PDI values. Conclusion: Nanosuspension formulations represents a versatile strategy to improve the therapeutic efficacy of hydrophobic drugs across various routes of administration. [ABSTRACT FROM AUTHOR]

Published

2024

4. Color Change of Pear Wood (Pyrus communis L.) during Water Steam Treatment.

Author

Klarić, Miljenko, Španić, Nikola, Budrović, Zlatko, Zorić, Andreja Čunčić, Pervan, Stjepan, and Klarić, Kristina

Subjects

COMMON pear, WOOD, HEARTWOOD, SAPWOOD, WATER purification

Abstract

Hydrothermal treatment of wood, particularly steaming with saturated water steam, is often used to achieve a more intensive and homogenous wood color or to vary its hue. However, information on pear wood (Pyrus communis L.) steaming is limited in the available literature. This paper investigates the influence of steaming on the color of pear wood. Green, water-saturated samples of pear wood heartwood and sapwood were steamed with saturated water steam for 24 h at 98 °C. The color of the heartwood and sapwood was assessed both visually and with a standard three-stimulus colorimeter using the CIEL*a*b* system, and compared to the natural color of pear-wood. Additionally, FT-IR spectrometry was employed to analyze chemical changes in the wood samples. The results showed that both heartwood and sapwood experienced a decrease in lightening (L*), an increase in redness (a*), and a decrease in yellowness (b*) during steaming. Furthermore, a trend toward the equalization of L*, a*, and b* parameters between heartwood and sapwood over time was observed. FT-IR spectroscopy revealed that the chemical changes during steaming were primarily related to extractives and hemicelluloses, with no significant changes in cellulose and lignin. The obtained results suggest that pear wood color can be equalized to some extent by steaming and that the extent of the color change to darker tones is dependent on steaming time. [ABSTRACT FROM AUTHOR]

Published

2024

5. Combining Fourier-transform infrared spectroscopy and multivariate analysis for chemotyping of cell wall composition in Mungbean (Vigna radiata (L.) Wizcek).

Author

Das, Shouvik, Bhati, Vikrant, Dewangan, Bhagwat Prasad, Gangal, Apurva, Mishra, Gyan Prakash, Dikshit, Harsh Kumar, and Pawar, Prashant Anupama Mohan

Subjects

*PLANT cell walls, *TREE crops, *LEGUME farming, *CELL anatomy, *PLANT species, *MUNG bean

Abstract

Background: Dissection of complex plant cell wall structures demands a sensitive and quantitative method. FTIR is used regularly as a screening method to identify specific linkages in cell walls. However, quantification and assigning spectral bands to particular cell wall components is still a major challenge, specifically in crop species. In this study, we addressed these challenges using ATR-FTIR spectroscopy as it is a high throughput, cost-effective and non-destructive approach to understand the plant cell wall composition. This method was validated by analysing different varieties of mungbean which is one of the most important legume crops grown widely in Asia. Results: Using standards and extraction of a specific component of cell wall components, we assigned 1050–1060 cm−1 and 1390–1420 cm−1 wavenumbers that can be widely used to quantify cellulose and lignin, respectively, in Arabidopsis, Populus, rice and mungbean. Also, using KBr as a diluent, we established a method that can relatively quantify the cellulose and lignin composition among different tissue types of the above species. We further used this method to quantify cellulose and lignin in field-grown mungbean genotypes. The ATR-FTIR-based study revealed the cellulose content variation ranges from 27.9% to 52.3%, and the lignin content variation ranges from 13.7% to 31.6% in mungbean genotypes. Conclusion: Multivariate analysis of FT-IR data revealed differences in total cell wall (600–2000 cm−1), cellulose (1000–1100 cm−1) and lignin (1390–1420 cm−1) among leaf and stem of four plant species. Overall, our data suggested that ATR-FTIR can be used for the relative quantification of lignin and cellulose in different plant species. This method was successfully applied for rapid screening of cell wall composition in mungbean stem, and similarly, it can be used for screening other crops or tree species. [ABSTRACT FROM AUTHOR]

Published

2024

6. Microplastic Contamination in Field-Side Composting in Geneva, Switzerland (CH).

Author

Berset, Fanny C. D. and Stoll, Serge

Subjects

*ENVIRONMENTAL health, *POLYVINYL alcohol, *ORGANIC wastes, *INFRARED spectroscopy, *COMPOSTING

Abstract

Plastic pollution has become a growing concern for environmental and human health in recent years. Currently, research suggests that soil compartments might be highly contaminated, with compost being one of the major sources for plastic contamination, especially at reduced sizes. In Geneva, microplastic contamination has already been evaluated in industrial compost but not yet in field-side compost. Therefore, this work focuses on the evaluation of concentrations and the characterization of microplastic particles (MPs) in field-side compost in Geneva. Four different field-side composts were sampled in Geneva and sieved with sizes ranging from >5 mm to 0.5 mm. The MPs were visually sorted when possible, and the smaller ones were treated by digestion and density separation processes. All of the MPs were analyzed with infrared spectroscopy. The results (sizes > 5 mm to 1.25 mm) reveal concentrations between 195 ± 64 and 1315 ± 375 plastic particles/kg of compost and the presence of conventional plastics in every compost. MPs were present in almost every size fraction for the four composts, and the origin of waste seemed to influence their concentrations. Indeed, composts free from organic household waste had lower concentrations than the ones accepting that kind of waste. Littering and waste still wrapped in plastic were also noticed for the composts with higher concentrations of MPs. The characterization results highlight the variety of plastic types among the composts, mostly represented by PE (polyethylene), PVA (polyvinyl alcohol), PP (polypropylene), and DAIP (polydiallyl iso-phthalate) in general but also specific contamination by PEMA (poly ethyl methacrylate) for only one of the composts. Further work is needed to evaluate the distribution of MPs according to their size or the types of waste used in composting, especially the potential degrading conditions of plastics, to mitigate their presence in composts. [ABSTRACT FROM AUTHOR]

Published

2024

7. ASSESSMENT OF USING WATER OBTAINED THROUGH EVODROP TECHNOLOGY EXPOSED TO ELECTROMAGNETIC WAVES ON CONCRETE PROPERTIES BASED ON FT-IR AND SEM ANALYSES.

Author

Ignatov, Ignat, Huether, Fabio, Vassileva, Paunka, Iliev, Mario T., Ignatov, Alexander I., and Stoyanov, Chavdar

Subjects

*ELECTROMAGNETIC fields, *ELECTROMAGNETIC induction, *SCANNING electron microscopes, *ELECTROMAGNETIC waves, *CONSTRUCTION materials

Abstract

Various methods are applied to improve the quality of cement and concrete. Many efforts are made to enhance their quality by introducing additional compounds that can stabilize the chemical bonds between their components. Significant effects on hydrogen bonds under the influence of magnetic and electromagnetic waves have been observed. Results have been published with permanent magnetic fields for water treatment for concrete preparation with magnetic inductions B = 4000, 6000, 6000, 9000, and 9250 Gauss. Electromagnetic (e. m.) treated water has emerged as a promising approach for improving the properties of construction materials. Our investigation concerns the properties of concrete. Concrete is a composite building material mainly consisting of cement, aggregates, water, and various chemical additives. Water was activated with electromagnetic fields from solenoid, ranging from 20 to 40 kHz. The study employs Fourier Transform Infrared (FT-IR) spectroscopy analysis and the Scanning Electron Microscope (SEM) method. The experiments were performed on samples and control samples. The control samples were obtained with water before activation with EM fields. Treating the water in concrete preparation with electromagnetic fields leads to greater mixture homogeneity. SEM images substantiate this outcome. The FT-IR peaks are linked to heightened chemical reactivity from improved water parameters attributed to the treatment with the EVOdrop device. [ABSTRACT FROM AUTHOR]

Published

2024

8. Spectroscopic Studies on Plant Extract Mediated ZnO Nanoparticles as a Potential Cytotoxic Agent.

Author

Delma, B. T., Princela, M. Antilin, Subbareddy, Y., Malbi, M. Anitha, Roselet, S. Lizy, Treasa, M. Shirly, and Rao, M. C.

Subjects

*MANGO, *TRANSMISSION electron microscopy, *PLANT extracts, *ZINC ions, *METALLIC oxides

Abstract

Plants play an important role in nanoparticle preparation because they are easily accessible, environmentally friendly, and inexpensive. In this study, we used an ethanolic extract of Mangifera indica seed as a reducing and stabilising agent to create zinc oxide (ZnO) nanoparticles (NPs). The ZnO NPs were examined using characterization techniques such as UV-Vis, Fourier transform infrared (FT-IR), X-ray diffraction (XRD), scanning electron microscopy (SEM), and transmission electron microscopy (TEM). The interaction of phytochemical constituents from plant extracts providing the biological reduction of zinc metal ions to ZnO had been identified by the UV-visible absorption studies. According to the FT-IR results, metal oxides exhibited interatomic vibration-driven absorption in the fingerprint area below 1000 cm–1. Particles appeared to be crystalline and also a rice-grain shape of ZnO NPs was confirmed by XRD, SEM, and TEM, respectively. In addition, the cytotoxic effect of ZnO NPs was checked using the SKMEL-28 cell line, showing an IC50 value of 32.686 μg/mL in the SKMEL-28 cell line, and 49.011 μg/mL in the typical L6 cell line. Furthermore, the synthesized NPs were subjected to (AO/EB) double staining approach to examine the apoptotic activity. The acridine orange/ethidium bromide method made strong evidence for demonstrating chromatin condensation and membrane blebbing. [ABSTRACT FROM AUTHOR]

Published

2024

9. Cloning, Overexpression and Application of Lipase from Thermotolerant Bacillus subtilis TTP-06 in the Degradation of Polyhydroxyalkanoate.

Author

Kaur, Manpreet, Batta, Sudha, Sehgal, Rutika, and Gupta, Reena

Subjects

*FOURIER transform infrared spectroscopy, *GENE expression, *MOLECULAR cloning, *BACILLUS subtilis, *MOLECULAR vibration, *LIPASES

Abstract

Polyhydroxyalkanoates (PHAs) constitute a principal group of bio-degradable polymers that are produced by certain microbes under limited supply of nutrients. PHA is a linear polyester that comprises of 3-hydroxy fatty acid monomers. Triacylglycerol acylhydrolases are known to catalyze the hydrolysis of ester linkages and in turn they are beneficial in the degradation of PHA. In present study, lipase-catalyzed degradation of PHA synthesized by Priestia megatarium POD1 was monitored. A gene from thermotolerant Bacillus subtilis TTP-06 that was capable of expressing lipase enzyme was amplified by PCR, cloned into a pTZ57R/T-vector, transferred to an expression vector pET-23a (+) and expressed in Escherichia coli BL21 (DE3) cells. The recombinant enzyme purified to 19.37-fold had a molecular weight of 30 kDa (SDS-PAGE analysis). Scanning Electron Microscopy (SEM) revealed changes in the surface morphology of native and treated PHA films. Further, changes in molecular vibrations were confirmed by Fourier Transform Infrared Spectroscopy. [ABSTRACT FROM AUTHOR]

Published

2024

10. Toxicity Assessment of Gas, Solid and Liquid Emissions from Li-Ion Cells of Different Chemistry Subjected to Thermal Abuse.

Author

Ubaldi, Sofia and Russo, Paola

Subjects

*TOXIC substance exposure, *CYTOCHEMISTRY, *LITHIUM-ion batteries, *POWER density, *AIR flow, *LITHIUM cells

Abstract

Lithium-ion batteries (LIBs) are employed in a range of devices due to their high energy and power density. However, the increased power density of LIBs raises concerns regarding their safety when subjected to external abuse. The thermal behavior is influenced by a number of factors, i.e., the state of charge (SoC), the cell chemistry and the abuse conditions. In this study, three distinct cylindrical Li-ion cells, i.e., lithium nickel cobalt aluminum oxide (NCA), lithium titanate oxide (LTO), and lithium iron phosphate (LFP), were subjected to thermal abuse (heating rate of 5 °C/min) in an air flow reactor, with 100% SoC. Venting and thermal runaway (TR) were recorded in terms of temperature and pressure, while the emitted products (gas, solid, and liquid) were subjected to analysis by FT-IR and ICP-OES. The concentrations of the toxic gases (HF, CO) are significantly in excess of the Immediate Danger to Life or Health Limit (IDLH). Furthermore, it is observed that the solid particles are the result of electrode degradation (metallic nature), whereas the liquid aerosol is derived from the electrolyte solvent. It is therefore evident that in the event of a LIB fire, in order to enhance the safety of the emergency responders, it is necessary to use appropriate personal protective equipment (PPE) in order to minimize exposure to toxic substances, i.e., particles and aerosol. [ABSTRACT FROM AUTHOR]

Published

2024

11. Unlocking the medicinal arsenal of Cissus assamica: GC‐MS/MS, FTIR, and molecular docking insights.

Author

Taher, Mohammad Abdullah, Kundu, Ripa, Laboni, Aysha Akter, Shompa, Suriya Akter, Moniruzzaman, Md., Hasan, Mohammad Mahmudul, Hasnat, Hasin, Hasan, Md. Mehedi, and Khan, Mala

Subjects

EPIDERMAL growth factor receptors, TETRAHYDROFOLATE dehydrogenase, CYCLOOXYGENASE 2, OPIOID receptors, MOLECULAR docking

Abstract

Background and aims: This study investigated the biochemical components present in the leaves of Cissus assamica. The primary aim was to analyze these components using advanced techniques and assess their potential therapeutic applications. Methodology: Fourier Transform Infrared (FT‐IR) spectroscopy, Gas Chromatography‐Mass Spectrometry (GC‐MS), and Mass Spectral analysis were employed to identify and characterize the compounds in Cissus assamica leaves. The mass spectra of each compound were compared with data from the Wiley and NIST libraries to determine their names, molecular masses, and chemical structures. FT‐IR analysis identified characteristic functional groups by their specific frequencies. Results and discussion: FT‐IR spectroscopic analysis revealed significant molecular vibrations at frequencies of 3265.63, 2853.81, 1638.60, 1469.21, and 1384.95 cm⁻¹, indicating the presence of specific functional groups. The GC‐MS analysis identified distinct compounds, such as "aR‐Turmerone," "Curlone," "7,8‐Epoxylanostan‐11‐ol, 3‐acetoxy‐," "13‐Docosenamide, (Z)‐," "Phenol, 3,5‐bis(1,1‐dimethylethyl)‐," "9,19‐Cyclolanostan‐3‐ol, 24,24‐epoxymethano‐, acetate," and "Quinoline‐5,8‐dione‐6‐ol, 7‐[[(4‐cyclohexylbutyl)amino]methyl]‐." These compounds exhibited potential therapeutic applications. Their cytotoxic, antimicrobial, antidiarrheal, anti‐hyperglycemic, and pain‐relieving properties were evaluated by comparing them with reference ligands targeting specific receptors, including dihydrofolate reductase (DHFR), epidermal growth factor receptor (EGFR), kappa opioid receptor (KOR), glucose transporter 3 (GLUT 3), and cyclooxygenase 2 (COX‐2). Conclusion: The results of this study suggest that Cissus assamica leaves contain bioactive compounds with potential therapeutic benefits for treating infections, diarrhea, hyperglycemia, and pain. However, further research is needed to conduct comprehensive phytochemical screening and establish the precise mechanisms of action for the crude extract or the plant‐derived compounds. Highlights: Compound isolation and characterization of the plant Cissus assamica was done by GC‐MS/MS and FTIR analyses.A total of 15 Phytochemicals were identified.In silico analysis of the identified phytochemicals were carried out for the evaluation of antidiarrheal, analgesic, hypoglycemic, anticancer and antimicrobial potentiality of the compounds.ADME/T were shown to observe potential drug likeliness. [ABSTRACT FROM AUTHOR]

Published

2024

12. Cu(II) Biosorption and Synthesis of CuO Nanoparticles by Staphylococcus epidermidis CECT 4183: Evaluation of the Biocidal Effect.

Author

Muñoz, Antonio J., Espínola, Francisco, Moya, Manuel, Martín, Celia, and Ruiz, Encarnación

Subjects

SUSTAINABLE chemistry, BIOSORPTION, COPPER, STAPHYLOCOCCUS epidermidis, RESPONSE surfaces (Statistics)

Abstract

Featured Application: Staphylococcus epidermidis CECT 4183 presents a good capacity for its application in the bioremediation of Cu(II) in contaminated water, and at the same time, its cellular extract has a good capacity to synthesize CuO-NPs with potential applications in nanomedicine. Copper contamination of natural waters is a global problem that affects ecosystems and public health, yet this metal is an essential micronutrient and has important applications. The efficacy of Staphylococcus epidermidis CECT 4183 as a Cu(II) biosorbent in synthetic solutions and its potential ability to synthesize CuO nanoparticles (CuO-NPs) from its cellular extract was investigated. In addition, the biocidal potential of the nanoparticles was evaluated against five microorganisms. Using response surface methodology, the optimal operating conditions were determined to be biomass dose, 0.2 g/L, and pH 5.5. Equilibrium tests were performed, and biosorption isotherms were obtained for four models with a maximum biosorption capacity of 48.14 mg/g for the Langmuir model. Different spectroscopic and microscopic techniques were used to determine the mechanisms involved in the biosorption process, which was dominated by surface physicochemical interactions with strong involvement of methyl, methylene, carbonyl, amino, and phosphate groups. The techniques also allowed for characterizing the obtained nanoparticles, which had a quasi-spherical morphology and an average size of 14 nm. Finally, biocidal tests showed that the CuO-NPs had a good inhibitory capacity for the microorganisms tested, with minimum inhibitory concentrations (MIC) between 62.5 and 500 µg/mL for bacteria and between 1000 and 2000 µg/mL for yeasts. S. epidermidis CECT 4183 showed good potential for Cu(II) bioremediation and for the synthesis of CuO-NPs with biocidal capacity. S. epidermidis CECT 4183 showed good potential for use in Cu(II) biosorption, and its cell extract presented a high capacity for the green synthesis of CuO-NPs, which at the same time turned out to be good biocidal agents. [ABSTRACT FROM AUTHOR]

Published

2024

13. Degradation and Migration in Olive Oil Packaged in Polyethylene Terephthalate under Thermal Treatment and Storage Conditions.

Author

González-Torres, Pablo, García-Ruiz, Ángeles, and La Rubia, M. Dolores

Subjects

MID-infrared spectroscopy, FOURIER transform infrared spectroscopy, OLIVE oil, DIFFERENTIAL scanning calorimetry, POLYETHYLENE terephthalate, INDUCTIVELY coupled plasma mass spectrometry

Abstract

The research addresses challenges in food safety related to the migration of contaminants from plastics to food. It focused on the physicochemical and sensory degradation of olive oils packaged in polyethylene terephthalate (PET) and subjected to thermal exposure at 40 °C and 60 °C for several weeks and a subsequent 12 months of storage, as well as the stability and migration of compounds from the PET packaging itself. Olive oils (OO) from Spanish supermarkets (a mixture of refined and virgin, with commercial identifications of mild and intense) were selected and subjected to thermal treatments at 40 °C and 60 °C for 1, 2, and 3 weeks, followed by 12 months of storage. The treatments were conducted through the following two independent experiments: Experiment A focused on immediate analysis post-thermal treatment, while Experiment B included a 12-month storage period post-thermal treatment. The presence of antimony (Sb) was analyzed using acid digestion with nitric acid (HNO3) and high-resolution inductively coupled plasma mass spectrometry (HR-ICP-MS), while the metals cadmium (Cd), copper (Cu), lead (Pb), and iron (Fe) were analyzed using inductively coupled plasma mass spectrometry (ICP-MS). The PET characterization was assessed using Fourier transform infrared spectroscopy in the mid-infrared range (FT-IR/MIR), carbonyl index, and differential scanning calorimetry (DSC). The results showed increases in the acidity index by 0.29%, the peroxide value by 25.92%, and the K268 coefficient by 51.22% between the control sample and the most severe treatments, with more pronounced effects observed after 12 months. Sensory quality declined, with reduced intensity of the "fruity" attribute and increased presence of the "rancid" defect. PET degradation was reflected in an increase in the carbonyl index and greater structural amorphization. Fe was the predominant metal, and Sb concentration increased after thermal treatments. The lack of studies on the raw consumption of oils packaged in PET and the concerns about the migration of compounds from the packaging to the food highlight the relevance of this research. This study provides new insights into the effects of thermal exposure and storage on the migration of PET contaminants into oils, contributing to the development of strategies to ensure food safety and product quality. [ABSTRACT FROM AUTHOR]

Published

2024

14. A Peak-Finding Siamese Convolutional Neural Network (PF-SCNN) for Aero-Engine Hot Jet FT-IR Spectrum Classification.

Author

Du, Shuhan, Han, Wei, Kang, Zhenping, Luo, Fengkun, Liao, Yurong, and Li, Zhaoming

Subjects

CONVOLUTIONAL neural networks, FOURIER transform spectrometers, INFRARED spectra, TELEMETRY, CLASSIFICATION

Abstract

Aiming at solving difficulties related to aero-engine classification and identification, two telemetry Fourier transform infrared spectrometers are utilized to measure the infrared spectra of six types of aero-engine hot jets, and create a spectral data set, which is divided into a training set (80%), a validation set (10%), and a prediction set (10%). A peak-finding Siamese convolutional neural network (PF-SCNN) is used to match and classify the spectral data. During the training stage, the Siamese convolutional neural network (SCNN) is designed to extract spectral features and calculate the distance similarity. In order to improve the efficiency of the SCNN, a peak-finding method is introduced to extract the spectral peaks, which are used to train the model instead of the original spectral data. During the prediction stage, the trained model is used to calculate the similarity between the prediction set and the combined set of the training set and validation set, and the label of the most similar training data in each prediction set is used as the prediction label. The performance measures of the classification results include accuracy, precision, recall, confusion matrix, and F1-score. The experimental results show that the PF-SCNN can achieve a high classification accuracy rate of 99% and can complete the task of classifying the infrared spectra of aero-engine hot jets. [ABSTRACT FROM AUTHOR]

Published

2024

15. Mushroom By-Products as a Source of Growth Stimulation and Biochemical Composition Added-Value of Pleurotus ostreatus , Cyclocybe cylindracea , and Lentinula edodes.

Author

Carminati, Gaia, Di Foggia, Michele, Garagozzo, Luca, and Di Francesco, Alessandra

Subjects

EDIBLE mushrooms, FUNGAL growth, SUBSTRATES (Materials science), CULTIVATED mushroom, MYCELIUM, MUSHROOMS, PLEUROTUS ostreatus

Abstract

Spent mushroom substrates (SMSs) and mushroom basal bodies (MBBs) are significant by-products because of their nutrient content even after harvesting. This study aimed to evaluate the effect of these two by-products, derived from Agaricus bisporus (Ab) and Cyclocybe cylindracea (Cc) cultivation, as potential growth and biochemical composition add-value enhancers of edible mushroom mycelia such as Pleurotus ostreatus, C. cylindracea, and Lentinula edodes. Fungal growth substrates enriched with SMS and MBB extracts significantly affected the growth of mushroom mycelia. In particular, on P. ostreatus, the MBBs Ab and Cc extracts determined an increase in mycelial weight by 89.5%. Also, by-products influenced mushrooms' mycelial texture, which appeared more floccose and abundant in growth. FT-IR analysis showed that L. edodes mycelium, grown on MBB substrates, showed the highest increase in bands associated with proteins and chitin. Results demonstrated that mushroom by-products enhance mycelial growth and confer an enrichment of compounds that could increase mycelial resistance to pathogens and make a nutraceutical improvement. [ABSTRACT FROM AUTHOR]

Published

2024

16. Thermal stimuli response diphenylmethane diisocyanate‐based polyurethane elastomer via adjustable silicon‐induced distinctive microstructure.

Author

Fang, Yu, Jiang, An‐ji, Huang, Jin, and Zhang, Peng

Subjects

ELASTIC modulus, THERMAL stability, PHASE separation, HYDROGEN bonding, THERMAL properties, POLYURETHANE elastomers

Abstract

The segment character of polyurethanes (PUs) determines the micromorphology and properties. The effective segment regulation can customize the favorable performance of PUs. Herein, silicon covalent‐modified polyurethanes (MPUs) were prepared by incorporating diphenylmethane diisocyanate (MDI) and diphenyl silanediol (DPSD) into PU molecules as hard segments via a two‐step method. Distinctive microphase separation structures from sheet morphology to radial sheet or withered flower‐like microdomain were formed by adjusting hydrogen bonding of hard segments and post‐treatment techniques. Thus, with the addition of DPSD in hard segments, the thermo‐optic responses for MPUs occurred due to the different microphase evolution under thermal effect. And with the further addition of DPSD, the effect of thermal stimuli on the transmittance gradually weakened. It was very clear that with increasing the temperature, the transmittance of MPUs showed a gradual increase owing to melting the microcrystals or destroying the ordered accumulation of hard segments. Meanwhile, the high mechanical properties were obtained, higher 15 times tensile strength and more than 100 times elastic modulus than those of pure PU as well as the excellent thermal stability. In sum, this study was of great significance for developing new functionalized PU materials. Highlights: Polyurethanes were prepared by inducing modified silicon functionality.The distinctive microphase separation evolution of MPUs was found.Thermal stimuli responses showed a gradual decrease due to different structure.High mechanical properties and thermal stability were also obtained. [ABSTRACT FROM AUTHOR]

Published

2024

17. BIODEGRADATION OF LOWDENSITY POLYETHYLENE (LDPE) BY PSEUDOMONAS AERUGINOSA STRAIN P9 ISOLATED FROM POULTRY DROPPINGS

Author

Jain Ankit, Jogi Joycee, Chhabra Daljeet, Shukla Supriya, Aich Ranjit, Gangil Rakhi, Sikrodia Ravi, Sharda Rakesh, and Patidar K Mukesh

Subjects

pseudomonas aeruginosa, poultry droppings, biodegradation, ldpe, sem, ft-ir, Veterinary medicine, SF600-1100

Abstract

This study aimed to isolate bacteria from poultry droppings for the degradation of lowdensity polyethylene (LDPE). Poultry droppings were collected from the Instructional Livestock Farm Complex (ILFC), Veterinary College, Mhow, Madhya Pradesh, India. LDPE films were treated with UV rays for 48 hours and used for the study. Four isolates were identified by Gram's staining. In M9, K9, P9, and E9; one was identified as Gram-positive, and 3 were found as Gram-negative bacteria. Screening of bacteria for LDPE biodegradation was done by clear zone formation. Out of 4 isolates, P9 was identified as LDPE degrading bacteria. LDPE degradation was analyzed by gravimetric analysis using the weight loss method, the functional group was analyzed by Fourier transform infrared spectroscopy, and the surface was analyzed by scanning electron microscopy. LDPE films with isolate P9 showed significant weight loss (16.98%±0.47) after 60 days. FT-IR analysis showed a decrease (58.8%) in carbonyl index and changes in functional group vibrations indicating LDPE degradation. SEM image examination revealed bacterial colonization, biofilm formation, surface erosions, cracks, and pit formation on the surface of LDPE which was indicative of the degradation of LDPE film. Further, the identification of isolate P9 was done by BD Phoenix M50 automated identification system and 16S rRNA sequencing. Sequencing and phylogenetic analysis of the P9 isolate showed 99.76% similarity with Pseudomonas aeruginosa (OR921266.1). Our findings underscore the potential of strain P9 from poultry droppings to efficiently utilize LDPE as a sole carbon source, thereby contributing to its degradation. This is the first report of isolating LDPE-degrading bacteria from poultry droppings. It is crucial to analyze the poultry gut microbiota for plastic degradation since this discovery highlights the need for further investigation.

Published

2024

18. Combining Fourier-transform infrared spectroscopy and multivariate analysis for chemotyping of cell wall composition in Mungbean (Vigna radiata (L.) Wizcek)

Author

Shouvik Das, Vikrant Bhati, Bhagwat Prasad Dewangan, Apurva Gangal, Gyan Prakash Mishra, Harsh Kumar Dikshit, and Prashant Anupama Mohan Pawar

Subjects

Plant cell wall, Mungbean, Cellulose, Lignin, FT-IR, Plant culture, SB1-1110, Biology (General), QH301-705.5

Abstract

Abstract Background Dissection of complex plant cell wall structures demands a sensitive and quantitative method. FTIR is used regularly as a screening method to identify specific linkages in cell walls. However, quantification and assigning spectral bands to particular cell wall components is still a major challenge, specifically in crop species. In this study, we addressed these challenges using ATR-FTIR spectroscopy as it is a high throughput, cost-effective and non-destructive approach to understand the plant cell wall composition. This method was validated by analysing different varieties of mungbean which is one of the most important legume crops grown widely in Asia. Results Using standards and extraction of a specific component of cell wall components, we assigned 1050–1060 cm−1 and 1390–1420 cm−1 wavenumbers that can be widely used to quantify cellulose and lignin, respectively, in Arabidopsis, Populus, rice and mungbean. Also, using KBr as a diluent, we established a method that can relatively quantify the cellulose and lignin composition among different tissue types of the above species. We further used this method to quantify cellulose and lignin in field-grown mungbean genotypes. The ATR-FTIR-based study revealed the cellulose content variation ranges from 27.9% to 52.3%, and the lignin content variation ranges from 13.7% to 31.6% in mungbean genotypes. Conclusion Multivariate analysis of FT-IR data revealed differences in total cell wall (600–2000 cm−1), cellulose (1000–1100 cm−1) and lignin (1390–1420 cm−1) among leaf and stem of four plant species. Overall, our data suggested that ATR-FTIR can be used for the relative quantification of lignin and cellulose in different plant species. This method was successfully applied for rapid screening of cell wall composition in mungbean stem, and similarly, it can be used for screening other crops or tree species.

Published

2024

19. Preparation of Calcium Titanate Perovskite Compound, Optical and Structural Properties

Author

Khujamkul T. Davranov, Muradulla T. Normuradov, Muzaffar A. Davlatov, Kuvondik T. Dovranov, T.U. Toshev, and N.A. Kurbonov

Subjects

x-ray phase analysis, miller indices, interplanar distance, calcium titanate, crystalline and amorphous phases, ft-ir, Physics, QC1-999

Abstract

In this work, we have successfully fabricated a calcium titanate perovskite compound. The resulting CaTiO3 compound was studied by preparing samples by compacting it in a powder state and using a Pousson device. The distance between the planes dhkl, Miller indices (hkl), degree of crystallinity and amorphism, structure and lattice parameters of the calcium titanate perovskite compound were determined using an X-ray diffractometer. Also, according to the results of FT-IR analysis, the formation of CaTiO3 perovskite is confirmed as a result of the study of molecular vibrations. The main broad peaks are observed in the range of 680÷400 cm-1, the absorption band at the wave number of 543,93 cm-1 corresponds to the specific stretching vibrations of Ti-O bonds and indicates the formation of the CaTiO3 perovskite type structure implies. Based on the results of these measurements, it will be possible to use semiconductor compounds in the future to create nanofilms by magnetron sputtering.

Published

2024

20. Phytochemical Analysis of Artemisia herba alba Asso (Asteraceae) Species

Author

Basel Saleh

Subjects

artemisia herba-alba, ft-ir, gc-ms, phytochemical analysis, Biochemistry, QD415-436

Abstract

Phytochemical analysis of Artemisia herba-alba Asso (Asteraceae) species has been carried out using fourier-transform infrared spectroscopy (FT-IR) technique and gas chromatography–mass spectrometry (GC-MS) analyses. FT-IR spectra of the aerial parts (buds AB, leaves AL and flowers AF) of A. herba-alba powder revealed the presence of 12 peaks, of which 11 common peaks characteristics of the three A. herba-alba studied aerial parts. Whereas, the peak of 1632 cm-1 [(assigned to Alkenyl C=C stretch-Olefinic (alkene) group)] was observed in AB and AF aerial parts and not in AL. As for GC-MS analysis, data revealed 12 & 10 chemical compounds classes in A. herba-alba buds extracts of which, Bicyclic monoterpenoids (37.026 & 49.022%) was presented as a major compound in methanolic and ethanolic buds extracts, respectively. Whereas, 17 & 14 chemical compounds classes were detected in A. herba-alba leaves extracts, of which, Fatty acid amides (28.687 & 25.687%) was presented as a major compound in methanolic and ethanolic leaves extracts, respectively. While, 16 & 11 chemical compounds classes were detected in A. herba-alba flowers extracts, of which Fatty acid amides (25.623 & 23.295%) was presented as a major compound in methanolic and ethanolic flowers extracts, respectively. These bioactive materials make this species as a good candidates for different pharmaceutical and medicine academic researches and applications.

Published

2024

21. Extraction, structural characteristics and antioxidant activity of hemp seeds glycoprotein.

Author

Zhang, Junwei, Song, Weiyu, Zhong, Yu, Wang, Danfeng, and Deng, Yun

Abstract

The extraction process of hemp seeds glycoprotein (HGP) was optimized by using response surface methodology based on the single-factor experiments, and the structure characteristic and antioxidant activity of HGP were evaluated. The optimum conditions were extracting temperature of 58.54 °C, material–liquid ratio of 1:22.21 and ultrasonic power of 344.53 W. The molecular weight of HGP was identified by SDS-PAGE to be about 35 kDa. The FT-IR results demonstrated the presence of uronic acid and pyranose in the HGP structure. UV spectral scanning results confirmed the presence of a polypeptide skeleton structure and aromatic amino acids in HGP. TGA analysis revealed two weight loss intervals for HGP, with a thermal degradation temperature of 341.6 °C. Moreover, HGP demonstrated good antioxidant activity in vitro, with IC50 values of all antioxidant indexes below 0.5 mg/mL. These findings provide a basis for in-depth exploration of functional characteristics of hemp seeds glycoprotein. [ABSTRACT FROM AUTHOR]

Published

2024

22. Microplastic Contamination in Field-Side Composting in Geneva, Switzerland (CH)

Author

Fanny C. D. Berset and Serge Stoll

Subjects

microplastics, compost, contamination, ATR, FT-IR, Biology (General), QH301-705.5, Microbiology, QR1-502, Biochemistry, QD415-436

Abstract

Plastic pollution has become a growing concern for environmental and human health in recent years. Currently, research suggests that soil compartments might be highly contaminated, with compost being one of the major sources for plastic contamination, especially at reduced sizes. In Geneva, microplastic contamination has already been evaluated in industrial compost but not yet in field-side compost. Therefore, this work focuses on the evaluation of concentrations and the characterization of microplastic particles (MPs) in field-side compost in Geneva. Four different field-side composts were sampled in Geneva and sieved with sizes ranging from >5 mm to 0.5 mm. The MPs were visually sorted when possible, and the smaller ones were treated by digestion and density separation processes. All of the MPs were analyzed with infrared spectroscopy. The results (sizes > 5 mm to 1.25 mm) reveal concentrations between 195 ± 64 and 1315 ± 375 plastic particles/kg of compost and the presence of conventional plastics in every compost. MPs were present in almost every size fraction for the four composts, and the origin of waste seemed to influence their concentrations. Indeed, composts free from organic household waste had lower concentrations than the ones accepting that kind of waste. Littering and waste still wrapped in plastic were also noticed for the composts with higher concentrations of MPs. The characterization results highlight the variety of plastic types among the composts, mostly represented by PE (polyethylene), PVA (polyvinyl alcohol), PP (polypropylene), and DAIP (polydiallyl iso-phthalate) in general but also specific contamination by PEMA (poly ethyl methacrylate) for only one of the composts. Further work is needed to evaluate the distribution of MPs according to their size or the types of waste used in composting, especially the potential degrading conditions of plastics, to mitigate their presence in composts.

Published

2024

23. An analytical characterization study on biofuel obtained from pyrolysis of Madhuca longifolia residues

Author

S. Thiru, Ramesh Kola, Manish Kumar Thimmaraju, C. Sowmya Dhanalakshmi, Vipin Sharma, P. Sakthi, Lakshmana Phaneendra Maguluri, L. Ranganathan, and J. Isaac JoshuaRamesh Lalvani

Subjects

Forest residues, Pyrolysis, Fixed bed, FT-IR, GC–MS, Medicine, Science

Abstract

Abstract The current study focuses on examining the characteristics of biofuel obtained from the pyrolysis of Madhuca longifolia residues, since the selected forest residue was primarily motivated by its greater volatile matter content. The study used several analytical techniques to describe pyrolysis oil, char, and gas obtained from slow pyrolysis process conducted between 350 and 600 °C in a fixed-bed reactor. Initially, the effect of process temperature on product distribution was assessed to motivate maximum pyrolysis oil yield and found to be 44.2 wt% at pyrolysis temperature of 475 °C, while the yields of char and gas were 22.1 wt% and 33.7 wt%, respectively. In order to determine the suitability of the feedstock, the Madhuca longifolia residues were analyzed by TGA and FT-IR, which revealed that the feedstock could be a feasible option as an energy source. The characterization of pyrolysis oil, char, and gas has been done through various analytical methods like FT-IR, GC-MS, and gas chromatography. The physicochemical characteristics of the pyrolysis oil sample were examined, and the results showed that the oil is a viscous liquid with a lower heating value than conventional diesel. The FT-IR and GC-MS analysis of pyrolysis oil revealed the presence of increased levels of oxygenated chemicals, acids, and phenol derivatives. The findings of the FT-IR analysis of char indicated the existence of aromatic and aliphatic hydrocarbons. The increased carbon content in the char indicated the possibility of using solid fuel. Gas chromatography was used to examine the chemical structure of the pyrolysis gas, and the results showed the existence of combustible elements.

Published

2024

24. Continuous Wavelet Transform Peak-Seeking Attention Mechanism Conventional Neural Network: A Lightweight Feature Extraction Network with Attention Mechanism Based on the Continuous Wave Transform Peak-Seeking Method for Aero-Engine Hot Jet Fourier Transform Infrared Classification

Author

Du, Shuhan, Han, Wei, Kang, Zhenping, Lu, Xiangning, Liao, Yurong, and Li, Zhaoming

Subjects

*FOURIER transform spectrometers, *WAVELET transforms, *FEATURE extraction, *DEEP learning, *WAVENUMBER, *RUNNING speed

Abstract

Focusing on the problem of identifying and classifying aero-engine models, this paper measures the infrared spectrum data of aero-engine hot jets using a telemetry Fourier transform infrared spectrometer. Simultaneously, infrared spectral data sets with the six different types of aero-engines were created. For the purpose of classifying and identifying infrared spectral data, a CNN architecture based on the continuous wavelet transform peak-seeking attention mechanism (CWT-AM-CNN) is suggested. This method calculates the peak value of middle wave band by continuous wavelet transform, and the peak data are extracted by the statistics of the wave number locations with high frequency. The attention mechanism was used for the peak data, and the attention mechanism was weighted to the feature map of the feature extraction block. The training set, validation set and prediction set were divided in the ratio of 8:1:1 for the infrared spectral data sets. For three different data sets, the CWT-AM-CNN proposed in this paper was compared with the classical classifier algorithm based on CO2 feature vector and the popular AE, RNN and LSTM spectral processing networks. The prediction accuracy of the proposed algorithm in the three data sets was as high as 97%, and the lightweight network structure design not only guarantees high precision, but also has a fast running speed, which can realize the rapid and high-precision classification of the infrared spectral data of the aero-engine hot jets. [ABSTRACT FROM AUTHOR]

Published

2024

25. Synthesis, X-ray Crystallography, Spectroscopic Characterizations, Density Functional Theory, and Hirshfeld Surface Analyses of a Novel (Carbonato) Picket Fence Iron(III) Complex.

Author

Dhifet, Mondher, Gassoumi, Bouzid, Lutoshkin, Maxim A., Kazachenko, Anna S., Kazachenko, Aleksandr S., Al-Dossary, Omar, Issaoui, Noureddine, and Nasri, Habib

Subjects

*FRONTIER orbitals, *MOLECULAR structure, *MOLECULAR orbitals, *INTERMOLECULAR interactions, *DENSITY functional theory

Abstract

An Fe(III)-carbonato six-coordinate picket fence porphyrin complex with the formula [K(2,2,2-crypt)][FeIII(TpivPP)(CO3)]·C6H5Cl·3H2O (I) has been synthesized and characterized by UV-Vis and FT-IR spectra. The structure of (carbonato)(α,α,α,α-tetrakis(o-pivalamidophenyl)porphinato)ferrate(III) was also established by XRD. The iron atom is hexa-coordinated by the four nitrogen atoms of the pyrrol rings and the two oxygen atoms of the CO32− group. Complex I, characterized as a ferric high-spin complex (S = 5/2), presented higher Fe-Np (2.105(6) Å) and Fe-PC (0.654(2) Å) distances. Both X-ray molecular structure and Hirshfeld surface analysis results show that the crystal packing of I is made by C-H⋯O and C-H⋯Cg weak intermolecular hydrogen interactions involving neighboring [FeIII(TpivPP)(CO3)]− ion complexes. Computational studies were carried out at DFT/B3LYP-D3/LanL2DZ to investigate the HOMO and LUMO molecular frontier orbitals and the reactivity within the studied compound. The stability of compound I was investigated by analyzing both intra- and inter-molecular interactions using the 2D and 3DHirshfeld surface (HS) analyses. Additionally, the frontier molecular orbital (FMO) calculations and the molecular electronic potential (MEP) analyses were conducted to determine the electron localizations, electrophilic, and nucleophilic regions, as well as charge transfer (ECT) within the studied system. [ABSTRACT FROM AUTHOR]

Published

2024

26. Investigation into the Reduction of Palm Oil in Foods by Blended Vegetable Oils through Response Surface Methodology and Oxidative Stability Tests.

Author

Athanasiadis, Vassilis, Kalompatsios, Dimitrios, Mantiniotou, Martha, and Lalas, Stavros I.

Subjects

SATURATED fatty acids, VEGETABLE oils, RAPESEED oil, UNSATURATED fatty acids, CORN oil

Abstract

Recently, there has been a significant transition in the dietary preferences of consumers toward foods containing health-promoting compounds. In addition, as people's environmental awareness increases, they are increasingly looking for sustainable solutions. Palm oil, an oil used extensively by the food industry, does not fit these criteria. This study investigated the development of a complex oil blend consisting of commonly used vegetable oils such as corn, rapeseed, sunflower, and palm oil. The aim was to find the optimal blended oil and compare this combination with palm oil in terms of its oxidative stability, antioxidant capacity, and the composition of bioactive compounds (i.e., fatty acids, tocopherols, and carotenoids). Palm oil was found to have greater oxidative stability as a result of its increased concentration of saturated fatty acids. The optimal blended oil, which consisted of corn and rapeseed oil at a ratio of 4:3 w/w, inhibited the superior antioxidant activity, showing a ~33% increase in DPPH• inhibition activity. ATR-FTIR spectra further verified the existence of a significant quantity of saturated fatty acids in palm oil and unsaturated fatty acids in the blended oil. Finally, several correlation analyses revealed interesting connections between oil samples and investigated parameters. This work has the potential to establish a basis for the mass production of oil blends that possess high concentrations of antioxidant compounds and reduce the use of palm oil. [ABSTRACT FROM AUTHOR]

Published

2024

27. PHYTOCHEMICAL SCREENING AND PRELIMINARY BIOLOGICAL IN VITRO ASSESSMENT OF CAMELLIA SINENSIS L. ETHANOLIC EXTRACT.

Author

GEAMANTAN-SÎRBU, ANDREEA, SEMENESCU, ALEXANDRA, MOACĂ, ALINA, SUSAN, RAZVAN, JIJIE, ROBERT, and VLAD, CRISTIAN

Subjects

BIOLOGICAL assay, TEA extracts, TEA, MYELOID sarcoma, REACTIVE oxygen species, GREEN tea

Abstract

Camellia sinensis L. (Theaceae), is the most frequently consumed beverage worldwide, due to its human health benefits. The antioxidant compounds are known to act as a protective barrier of cell membranes against oxidative injury caused by various free radicals as well as by reactive oxygen species. Additionally, even phenolic compounds have pharmaceutical effects on oxidative injury from diverse causes. Therefore, the present study was conceived to establish the phytochemical screening, as well as the physicochemical profile of an ethanolic extract of aerial parts of Camelia sinensis L. acquired from a local authentic herbal distributor. In this respect, the total phenolic and flavonoid contents were investigated, as well as the antioxidant capacity of the green tea ethanolic extract obtained. For the physicochemical profile, the organic functional groups present in the green tea extract, and their thermal behavior were identified. Moreover, a preliminary in vitro biological assay was performed, through the evaluation of the antitumor potential of the green tea ethanolic extract obtained on the colon adenocarcinoma cell line (HT-29) compared to a healthy cell line, HaCaT (human immortalized keratinocytes). The results after the biological assessment suggest that the extract decreases the viability of HT-29 colon tumor cells (67% at a concentration of 100 µg/mL), showing a lesser effect on HaCaT cells; this being a first step in exploring the anticancer properties of the obtained extract. [ABSTRACT FROM AUTHOR]

Published

2024

28. PREPARATION OF CALCIUM TITANATE PEROVSKITE COMPOUND, OPTICAL AND STRUCTURAL PROPERTIES.

Author

Davranov, Khujamkul T., Normuradov, Muradulla T., Davlatov, Muzaffar A., Dovranov, Kuvondiq T., Toshev, T. U., and Kurbonov, N. A.

Subjects

*PEROVSKITE, *MILLER indices, *X-ray diffractometers, *NANOFILMS, *MAGNETRON sputtering

Abstract

In this work, we have successfully fabricated a calcium titanate perovskite compound. The resulting CaTiO3 compound was studied by preparing samples by compacting it in a powder state and using a Pousson device. The distance between the planes dhkl, Miller indices (hkl), degree of crystallinity and amorphism, structure and lattice parameters of the calcium titanate perovskite compound were determined using an X-ray diffractometer. Also, according to the results of FT-IR analysis, the formation of CaTiO3 perovskite is confirmed as a result of the study of molecular vibrations. The main broad peaks are observed in the range of 680÷400 cm-1, the absorption band at the wave number of 543,93 cm-1 corresponds to the specific stretching vibrations of Ti-O bonds and indicates the formation of the CaTiO3 perovskite type structure implies. Based on the results of these measurements, it will be possible to use semiconductor compounds in the future to create nanofilms by magnetron sputtering. [ABSTRACT FROM AUTHOR]

Published

2024

29. Effects of Pretreatment on the Microcharacterization and Fermentation of Bamboo Shoot Shells.

Author

Tengmian Zhou, Meiqun Li, Baiquan Zeng, Yong Meng, Jinjiao Chen, Chun Xiang, Chunfeng Hu, and Ming Yang

Subjects

*FOURIER transform infrared spectroscopy, *X-ray spectra, *BAMBOO shoots, *TRICHODERMA viride, *ASPERGILLUS niger

Abstract

This study focuses on the pretreatment and characterization of natural fibers from the bamboo shoot shell (BSS) of Phyllostachys heterocycla to determine their suitability as biorefining materials. The discarded bamboo shoot shell was used as a source of fibers, which were analyzed for their physical, chemical, and microstructure properties. Fourier transform infrared spectroscopy, X-ray diffraction spectra, and scanning electron microscopy confirmed that a mixture of sodium hydroxide immersion plus high-pressure steam treatment allowed the cellulose structure to be disrupted, providing more adsorption sites for cellulases. Gas chromatography mass spectrometry (GC-MS) also showed that the pretreatment exposed the internal structure of the fibers and that highmass silicon compounds were present in the eluted solution. After adding the cellulase produced by Trichoderma viride and Aspergillus niger, the reducing sugar yield was increased by 268% and 251%, compared to unpretreated BSS fibers. This strategy may apply to many industries, especially biorefining and lignocellulose biotransformation technology. [ABSTRACT FROM AUTHOR]

Published

2024

30. Effect of Various Herbal and Chemical Enhancers on Skin Permeability to Cetirizine: A Study of Changes in Rat Skin Cells.

Author

Soleymani, Saeed Mohammad, Mombeini, Rahim, and Salimi, Anayatollah

Subjects

SKIN permeability, DIFFERENTIAL scanning calorimetry, SKIN absorption, PROPYLENE glycols, BALDNESS

Abstract

Background: Cetirizine is a second-generation antihistamine with anti-allergy and anti-itching properties. The topical formulation of this medicine is used in androgenic alopecia treatment. Due to the hydrophilic nature of cetirizine, its skin absorption is negligible, so to increase its absorption, various enhancers were examined to see which can be used in the design of a topical formulation. Methods: First, the skin was exposed to enhancers, including eucalyptus, menthol, Tween 80, propylene glycol, and oleic acid, for 1 or 2 hours. Then, the permeability parameters of the cetirizine solution and the structural changes of the skin after exposure to enhancers were analyzed by differential scanning calorimetry (DSC) and Fourier-transform infrared spectroscopy (FTIR) techniques. Results: The obtained results show that all used enhancers increased the permeability of the drug cetirizine compared to water. Various mechanisms, such as liquefaction of lipids, destruction of lipid structure, and irreversible denaturation of intracellular keratin, are involved in the increase in drug penetration caused by eucalyptus, mint, Tween 80, propylene glycol, and oleic acid. Conclusions: The results showed that among the studied absorption enhancers, eucalyptus and Tween 80 had the strongest, and propylene glycol had the weakest absorption enhancement effect after 2- and 1-hour pre-contact, respectively. [ABSTRACT FROM AUTHOR]

Published

2024

31. Antiparasitic Activity of Isolated Fractions from Parthenium incanum Kunth against the Hemoflagellate Protozoan Trypanosoma cruzi.

Author

Hernández-Marín, David Alejandro, Castro-Rios, Rocio, Chávez-Montes, Abelardo, Castillo-Hernández, Sandra L., Elizondo-Luevano, Joel Horacio, Muñoz-Ortega, Martín Humberto, and Sánchez-García, Eduardo

Subjects

LIQUID chromatography-mass spectrometry, HIGH performance liquid chromatography, TRYPANOSOMA cruzi, INFRARED spectroscopy, SESQUITERPENE lactones

Abstract

This study focused on isolating, identifying, and evaluating the trypanocidal potential against the hemoflagellate protozoan Trypanosoma cruzi of compounds from Parthenium incanum (Mariola), a plant used in traditional Mexican medicine to treat stomach and liver disorders. P. incanum has a wide distribution in Mexico. This study found that methanolic extracts of P. incanum, obtained by static maceration and successive reflux, had promising results. The fractions were compared using thin-layer chromatography (TLC) and those that showed similarities were mixed. A bioguided assay was performed with Staphylococcus aureus ATCC 25923, using agar diffusion and bioautography techniques to determine the preliminary biological activity. The fractions with antimicrobial activity were purified using a preparative thin-layer chromatography (PTLC) plate, obtaining the bioactive bandages that were subjected to a trypanocidal evaluation against the Ninoa strain of T. cruzi in its epimastigote stage. This revealed an IC50 of up to 45 ± 2.5 µg/mL, in contrast to the values obtained from the crude extracts of less than 100 µg/mL. The TLC, Fourier-transform infrared spectroscopy (FT-IR), and high-performance liquid chromatography coupled with mass spectrometry (HPLC–MS) techniques were used to identify the compounds, demonstrating the presence of sesquiterpene lactones, parthenin, and coronopolin. We concluded that these compounds have the potential to inhibit T. cruzi growth. [ABSTRACT FROM AUTHOR]

Published

2024

32. Red Beetroot and Red Capsicum Pepper Purees Boosted with Anise or Fennel Aqueous Extracts.

Author

Tănase, Luiza-Andreea, Nistor, Oana-Viorela, Mocanu, Gabriel-Dănuț, Andronoiu, Doina-Georgeta, Botez, Elisabeta, and Ștefănescu, Bogdan Ioan

Subjects

BEETS, PEPPERS, FENNEL, WATER vapor, HOT water, EXTRACTS

Abstract

Featured Application: This research represents a starting point for associating plants with lactogenic potential with various thermally treated vegetables to design and create ready-to-eat (RTE) products with numerous health benefits. This research aimed to evaluate the changes induced by two thermal treatments on red beetroot and red capsicum pepper, alongside the addition of anise or fennel aqueous extracts to boost lactation. The cooking loss and yield, phytochemical profile, antioxidant activity, in vitro digestion, FT-IR investigations, and respective statistical analysis were performed for all the puree samples. Cooking loss and yield determined similar values for both vegetables used. Comparatively, between hot air and water vapor convection, the latter proved to be a milder method. By the statistical method, the samples mixed with herbal aqueous extracts presented significantly differences (p < 0.05) compared to the blank samples. Also, the samples mixed with herbal aqueous extracts were statistically significantly different from the control samples. Among the experimented samples, steamed red capsicum pepper puree enriched with aqueous anise extract (EAAA) showed the highest antioxidant activity (71.08 ± 1.9 µM Trolox/g DW). These results might mark the implementation of softer thermal methods for food preparation as well as new purposes for plants. FT-IR analysis revealed the presence of esters, glycosidic bands, pyranoid rings, and pectin, which are specific compounds for the evaluated matrices. The total phenolic content evolution was negatively affected only after the first hour of digestion. In conclusion, red beetroot and red capsicum pepper with anise or fennel aqueous extracts could contribute to improving breastfeeding. Even so, clinical tests and further analysis are necessary in order to confirm the efficacy of such products. [ABSTRACT FROM AUTHOR]

Published

2024

33. Comparison of Physicochemical, Antioxidant, and Cytotoxic Properties of Caffeic Acid Conjugates.

Author

Świderski, Grzegorz, Gołębiewska, Ewelina, Kalinowska, Monika, Świsłocka, Renata, Kowalczyk, Natalia, Jabłońska-Trypuć, Agata, and Lewandowski, Włodzimierz

Subjects

*CAFFEIC acid, *ELECTRON distribution, *ELECTRIC potential, *HYDROXYL group, *SUPEROXIDE dismutase, *CYTOTOXINS

Abstract

Spectroscopic studies (FT-IR, Raman, 1H, and 13C NMR, UV-VIS) of caffeic acid (CFA) and its conjugates, i.e., caftaric acid (CTA), cichoric acid (CA), and cynarin (CY), were carried out. The antioxidant activity of these compounds was determined by a superoxide dismutase (SOD) activity assay and the hydroxyl radical (HO•) inhibition assay. The cytotoxicity of these compounds was performed on DLD-1 cell lines. The molecules were theoretically modeled using the B3LYP-6-311++G(d,p) method. Aromaticity indexes (HOMA, I6, BAC, Aj), HOMO and LUMO orbital energies and reactivity descriptors, NBO electron charge distribution, EPS electrostatic potential maps, and theoretical IR and NMR spectra were calculated for the optimized model systems. The structural features of these compounds were discussed in terms of their biological activities. [ABSTRACT FROM AUTHOR]

Published

2024

34. Kemikler Üzerindeki Fiziksel Tahribatın Dönüşümlü Kızılötesi Spektroskopisi (FTIR) ile İncelenmesi.

Author

Sarıbey, Aylin Yalçın and Ağartancan, Alper

Abstract

In a forensic context, actions such as arson, submersion of the body in water, or burial, conducted with the intention of concealing a crime, can lead to postmortem changes in bones. In this regard, Fourier Transform Infrared (FT-IR) spectroscopy can be considered as an effective tool for detailed examination for forensic purposes. The focus of this research is to investigate the distinguishability of postmortem changes in bones using Attenuated Total Reflection (ATR)-FT-IR spectroscopy without preprocessing. Within the scope of the study, 14 different bone samples were subjected to various damages and examined in detail using ATR-FT-IR spectroscopy. The results indicated common absorbance bands in the FTIR spectra of damaged bones, excluding burned bones. Additionally, using Principal Component Analysis (PCA), it was determined that the damage occurring in bones could be distinguished with a discernibility rate ranging from 93% to 100%. The findings of the research have been evaluated as guiding and supportive for further studies in the field of forensic sciences. [ABSTRACT FROM AUTHOR]

Published

2024

35. Investigation of cattle manure, poultry manure and sewage sludge as raw materials for biochar synthesis via pyrolysis: A case study for Küçük Menderes Basin-Türkiye.

Author

ÖZUYSAL, Ayşenur and AKINCI, Görkem

Subjects

*SLUDGE management, *CATTLE manure, *BIOCHAR, *WATER supply, *RAW materials

Abstract

Decomposition products from direct disposal of manure and sewage sludge have negative impacts on water resources, soil and atmosphere. Here, biochar synthesized from cattle and poultry manure and sewage sludge generated in the Küçük Menderes Basin (>6 million tons dw/year) by pyrolysis and the properties of the biochars were examined. TGA-DTA results showed that, the maximum weight losses realized in the range of 200-500 °C. The loss of O-H stretching of hydroxyl groups and C-H stretching of aliphatic CHx observed in the analysis of FT-IR results indicated the successful pyrolysis. Biochars synthesized from cattle and poultry manure at 700oC resulted in the largest BET surface areas (47.59 m²/g and 11.31 m²/g, respectively). The largest BET surface area for sewage sludge biochar was obtained at 500 °C (41.76 m²/g). This different result was found to be related to the melting of the high inert content of sewage sludge containing treatment chemicals at >500 °C. SEM results supported the BET results and it was evaluated that the melted inert structure of the sludge partially trapped the biochar formed. It was concluded that, not only the volatile content of the wastes, but also the ratio and structure of their inert content are effective in biochar quality. [ABSTRACT FROM AUTHOR]

Published

2024

36. Evaluation of Deterioration Degree of Archaeological Wood from Luoyang Canal No. 1 Ancient Ship.

Author

Yang, Weiwei, Ma, Wanrong, and Liu, Xinyou

Subjects

WOOD, FOURIER transform infrared spectroscopy, DIGITAL preservation, WOOD decay, WOOD density

Abstract

This study provides a detailed investigation of archaeological wood samples from the Luoyang Canal No. 1 site, focusing on wood species identification, physical properties, mechanical property analyses, and morphological examination. The identified wood species, belonging to the Ulmus genus, exhibited a 43% decline in compressive strength in waterlogged environments. Further, the wood exhibited increased moisture content, higher porosity, reduced basic density, and elevated shrinkage rates, indicating a mild level of degradation. X-ray diffraction was employed for the observation of cellulose structure, and Fourier transform infrared spectroscopy (FT-IR) demonstrated significant removal of cellulose and hemicellulose components. These findings emphasize the importance of understanding wood degradation mechanisms to evaluate structural integrity and durability in guiding the development of effective preservation strategies for archaeological wood artifacts. Continued research and conservation are crucial to deepen our knowledge of wood deterioration processes and enhance the implementation of preservation techniques. [ABSTRACT FROM AUTHOR]

Published

2024

37. From Bin to Binder: Unleashing Waste Butter's Potential as a Pioneering Bio-Modifier for Sustainable Asphalt Engineering.

Author

Nciri, Nader and Kim, Namho

Abstract

Exploring the interface of environmental sustainability and civil infrastructure development, this study introduces waste butter (WB), a byproduct of animal fat processing, as a novel bio-modifier in asphalt production. This approach not only recycles animal waste but also charts a course for sustainable infrastructural development, contributing to a reduced environmental impact and promoting circular economy practices. The experiments incorporated varying WB concentrations (e.g., 3%, 6%, and 9% by weight of binder) into standard AP-5 asphalt, employing advanced analytical tools for comprehensive characterization. These included thin-layer chromatography–flame ionization detection (TLC-FID), Fourier-transform infrared spectroscopy (FT-IR), scanning electron microscopy (SEM), thermogravimetric analysis (TGA), and Differential Scanning Calorimetry (DSC). The critical properties of the asphalt blends, such as penetration, softening point, viscosity, ductility, rutting factor (Dynamic Shear Rheometer), and thermal susceptibility (Penetration Index, Penetration–Viscosity Number), were assessed. FT-IR analysis indicated negligible chemical alteration with WB addition, suggesting predominantly physical interactions. TLC-FID showed a decrease in aromatic and asphaltene components but an increase in resin content, highlighting the influence of WB's fatty acids on the asphalt's chemical balance. The colloidal instability index (IC) confirmed enhanced stability due to WB's high resin concentration. Meanwhile, SEM analysis revealed microstructural improvements with WB, enhancing binder compatibility. TGA demonstrated that even a minimal 3 wt. % WB addition significantly improved thermal stability, while the DSC results pointed to improved low-temperature performance, reducing brittleness in cold conditions. Rheologically, WB incorporation resulted in increased penetration and ductility, balanced by decreased viscosity and softening point, thereby demonstrating its multi-faceted utility. Thermal susceptibility tests emphasized WB's effectiveness in cold environments, with further evaluation needed at higher temperatures. The DSR findings necessitate careful WB calibration to meet Superpave rutting standards. In conclusion, this research positions waste butter as a superior, environmentally aligned bio-additive for asphalt blends, contributing significantly to eco-friendly civil engineering practices by repurposing animal-derived waste. [ABSTRACT FROM AUTHOR]

Published

2024

38. Simplex-lattice design and decision tree optimization of endophytic Trichoderma-multi-walled carbon nanotube composite for enhanced methylene blue removal

Author

Sahar E. Abo-Neima, Emad M. Elsehly, Fatimah O. Al-Otibi, Mohammed M. El-Metwally, Yosra A. Helmy, Noha M. Eldadamony, WesamEldin I.A. Saber, and Adel A. El-Morsi

Subjects

Dye reduction, Carbon nanotubes, Experimental design, Functionalization, SEM, FT-IR, Science (General), Q1-390, Social sciences (General), H1-99

Abstract

This study investigates a novel approach for enhancing methylene blue (MB) removal from water using a composite of endophytic Trichoderma mate and multi-walled carbon nanotubes (MWCNTs). For the first time, a unique combination of simplex-lattice design and decision tree learning algorithm was employed to optimize MB removal. This innovative approach effectively identified the optimal composite ratio of hyphal mate (0.5354 g/L) and MWCNTs (0.4646 g/L) for maximizing MB removal, which achieved remarkable removal efficiency ranging from 63.50 to 95.78 % depending on the combination used. The DT model further demonstrated promising potential for predicting MB removal efficiency. SEM revealed a unique hybrid material formed by the intertwining or entrapment of MWCNTs within the hyphal network of Trichoderma mate. FT-IR analysis confirmed the presence of novel functional groups on the MWCNTs' surface at 2438.79 and 528.25 cm−1, likely due to interactions with the endophytic fungi's biomolecules. These functional groups presumably act as reducing and stabilizing agents, promoting efficient MB adsorption. This research paves the way for utilizing the combined biological and chemical approach (fungal biomass and MWCNTs) in bioremediation applications. The findings suggest significant potential for practical applications in wastewater treatment, providing an eco-friendly and cost-effective method for dye removal. Furthermore, the proposed method shows promise for scaling up to industrial wastewater treatment and applicability in resource-limited settings, offering a sustainable solution for global water pollution challenges. Further investigations with larger datasets incorporating additional influencing factors are necessary to refine the predictive power of the DT model for practical applications.

Published

2024

39. Insights and perspectives on PVDF/MgO NCs films: Structural and optical properties for optoelectronic device applications

Author

Shivaraj Madivalappa, R.B. Basavaraj, P.B. Chethan, D.P. Aarti, and P.K. Jisha

Subjects

PVDF polymer, Magnesium Oxide nanofiller, XRD, SEM-EDAX, FT-IR, Raman Spectra, Chemistry, QD1-999

Abstract

In the current investigation, pure polyvinylidene fluoride (PVDF) and PVDF-MgO nanocomposite (NC) thin films are fabricated via solvent casting method using PVDF as a polymer matrix with different proportions of magnesium oxide (MgO) (0.5–2 wt%). The structural, morphological and optical properties of the prepared polymer NCs are studied by using XRD, FTIR, SEM, Raman and UV–Vis spectroscopy techniques. The α and β phases are detected in XRD measurements. MgO powder peaks are in good agreement with the reported literatures. The average crystallite size, lattice strain, and dislocation density of the prepared thin films are estimted by using Williamson-Hall (W-H) plot. SEM micrographs reveals the fluorine-containing carbon chain network that forms the spherulite and fiber-like structure in the PVDF/MgO NCs films. The Raman and FTIR spectra of PVDF/MgO and pure PVDF films are also evaluated. UV–Vis spectroscopy is used to examine the absorbance, transmittance, and reflectance spectra of pure PVDF and PVDF/MgO NCs thin films. The dipole polarization interaction causes the absorption coefficient, direct band gap, indirect band gap, optical activation energy, and skin depth of pure PVDF and PVDF/MgO thin films to decrease, whereas increasing the dielectric constant at high frequency value, refractive index, loss, optical conductivity, and dielectric constant per effective mass of NCs films. Optical dispersion parameters are estimated by the single oscillator model. The obtained results can be employed in the possible applications in supercapacitors. The method used for the preparation of thin films are inexpensive and eco-friendly.

Published

2024

40. Unlocking the medicinal arsenal of Cissus assamica: GC‐MS/MS, FTIR, and molecular docking insights

Author

Mohammad Abdullah Taher, Ripa Kundu, Aysha Akter Laboni, Suriya Akter Shompa, Md. Moniruzzaman, Mohammad Mahmudul Hasan, Hasin Hasnat, Md. Mehedi Hasan, and Mala Khan

Subjects

FT‐IR, GC–MS/MS, molecular docking, receptor, Medicine

Abstract

Abstract Background and aims This study investigated the biochemical components present in the leaves of Cissus assamica. The primary aim was to analyze these components using advanced techniques and assess their potential therapeutic applications. Methodology Fourier Transform Infrared (FT‐IR) spectroscopy, Gas Chromatography‐Mass Spectrometry (GC‐MS), and Mass Spectral analysis were employed to identify and characterize the compounds in Cissus assamica leaves. The mass spectra of each compound were compared with data from the Wiley and NIST libraries to determine their names, molecular masses, and chemical structures. FT‐IR analysis identified characteristic functional groups by their specific frequencies. Results and discussion FT‐IR spectroscopic analysis revealed significant molecular vibrations at frequencies of 3265.63, 2853.81, 1638.60, 1469.21, and 1384.95 cm⁻¹, indicating the presence of specific functional groups. The GC‐MS analysis identified distinct compounds, such as “aR‐Turmerone,” “Curlone,” “7,8‐Epoxylanostan‐11‐ol, 3‐acetoxy‐,” “13‐Docosenamide, (Z)‐,” “Phenol, 3,5‐bis(1,1‐dimethylethyl)‐,” “9,19‐Cyclolanostan‐3‐ol, 24,24‐epoxymethano‐, acetate,” and “Quinoline‐5,8‐dione‐6‐ol, 7‐[[(4‐cyclohexylbutyl)amino]methyl]‐.” These compounds exhibited potential therapeutic applications. Their cytotoxic, antimicrobial, antidiarrheal, anti‐hyperglycemic, and pain‐relieving properties were evaluated by comparing them with reference ligands targeting specific receptors, including dihydrofolate reductase (DHFR), epidermal growth factor receptor (EGFR), kappa opioid receptor (KOR), glucose transporter 3 (GLUT 3), and cyclooxygenase 2 (COX‐2). Conclusion The results of this study suggest that Cissus assamica leaves contain bioactive compounds with potential therapeutic benefits for treating infections, diarrhea, hyperglycemia, and pain. However, further research is needed to conduct comprehensive phytochemical screening and establish the precise mechanisms of action for the crude extract or the plant‐derived compounds.

Published

2024

41. Quantifying the effects of repeated dyeing: Morphological, mechanical, and chemical changes in human hair fibers

Author

Sangwoo Kwon, Seoyoon Lee, Jihui Jang, Jun Bae Lee, and Kyung Sook Kim

Subjects

Hair dyeing, Biomechanical property, Stiffness, Atomic force microscopy, FT-IR, Science (General), Q1-390, Social sciences (General), H1-99

Abstract

As hair dyeing gains popularity across all age groups, concerns about the potential damage caused by chemical treatments are also on the rise. Chemical dyes have a multifaceted impact on hair fibers, affecting their morphology, physical structure, and protein composition. In a comprehensive study, we investigated the alterations in morphological and mechanical properties, as well as the chemical composition of hair fibers following continuous dyeing. Our analysis employed various techniques, including atomic force microscopy (AFM), Fourier transform infrared (FT-IR) spectroscopy, and tensile strength measurements. To assess the cumulative damage resulting from repeated dyeing, we progressively increased the number of dyeing up to 10. Surprisingly, even a single dyeing session inflicted noticeable harm on the hair. However, the detrimental effects escalated significantly when hair underwent three or more consecutive dye treatments. While the mechanical properties and protein composition exhibited non-linear changes with increasing the number of dyeing, we observed that nanoscale damage to the cuticle surface intensified proportionally with the number of dyeing. These results highlight the critical need to consider the impacts of hair dyeing practices on both the health and the structural integrity of hair.

Published

2024

42. Plastic pollution and health metrics in wild juvenile green sea turtles (Chelonia mydas) from two Ecuadorian national parks: Galápagos and Machalilla

Author

Juan Pablo Muñoz-Pérez, Gregory A. Lewbart, Tania Toapanta, Helen Chadwick, Elvis D. Okoffo, Daniela Alarcón-Ruales, Leo Zurita-Arthos, Jen S. Jones, Fernando Cisneros, Andres Moreira-Mendieta, Cristina Vintimilla-Palacios, Cristina Miranda, Felipe Vallejo, Emma Houck, Rubén Alemán, Kamila Escobar-Flores, Alice Skehel, Jason Castañeda, Patricia Secoura, Shelly Vaden, Ceri Lewis, Tamara Galloway, Bryan Wallace, Brendan J. Godley, Matthew Cole, Penelope Lindeque, Kevin V. Thomas, Dominique A. Potvin, Carlos A. Valle, and Kathy A. Townsend

Subjects

juvenile green sea turtle, wildlife, plastic pollution, health, pyr-GC/MS, FT-IR, Zoology, QL1-991

Abstract

Marine vertebrates, particularly green sea turtles, are especially vulnerable to plastic pollution through ingestion or entanglement. This study investigated wild juvenile green sea turtles (Chelonia mydas) from two Ecuadorian national parks (Galápagos and Machallilla) to assess the prevalence of plastic pollution in their feces and its potential impact on various health metrics. We analyzed fecal samples from 46 juvenile green sea turtles using Fourier transform infrared spectroscopy (FT-IR) to quantify microplastics (MPs). A complementary methodology using pressurized liquid extraction with double-shot pyrolysis-mass spectrometry gas chromatography (Pyr-GC/MS) was also employed to quantify synthetic polymer mass concentrations. The results from these analyses were compared with blood analytes. FT-IR analysis revealed a mean of 4.4±5.2 MPs/g in fecal samples, with the highest quantities found in the Galápagos Marine Reserve (GMR). The most common MPs shape identified were fibers (x̄= 3.8±4.5 MPs/g), and the predominant synthetic polymers were polyvinyl alcohol (PVOH) and polyacrylates (PMMA). The daily intake of MPs by the sampled turtles ranged from a minimum of 312±409 MPs/day to a maximum of 430±563 MPs/day. Pyr-GC/MS analysis detected polyethylene (PE) with a mean of 367±1158 µg/g and polypropylene (PP) with a mean of 155±434 µg/g in fecal samples, with the highest pollution levels observed in the GMR. Both FT-IR and Pyr-GC/MS techniques detected plastic pollution in 98% of the sampled population. Although both FT-IR and Pyr-GC/MS are reliable methods, they produced slightly different results due to methodological variations. However, both supported the finding that turtles in the GMR were exposed to higher rates of plastic ingestion. Despite the turtles appearing clinically healthy based on blood analysis, significant differences in eleven health metrics were observed between turtles classified as less at risk and those most at risk for plastic pollution. Further research is necessary to understand the potential health implications of these findings.

Published

2024

43. Phenolic compound derived from Enteromorpha intestinalis and their bioactivity against bacterial pathogens

Author

Paramasivam Deepak, Balasubramanian Balamuralikrishnan, Ashraf Atef Hatamleh, Bassam Khalid Alnafisi, and Vijaya Anand Arumugam

Subjects

Antibacterial, Fish pathogens, FT-IR, HPLC, Minimal Inhibitory Concentration, Science (General), Q1-390

Abstract

The purpose of the study was to assess a phenolic compound that was extracted from the brown seaweed Enteromorpha intestinalis (Linn.), Nees (1820) for its antibacterial activities on different bacterial pathogens of fish illnesses. Hexane and methanol were utilized to extract bioactive compounds from the seaweed. Phytochemical analysis of the methnaolic extracts have revealed the presence of carbohydrates and glycosides, saponins, alkaloids, amino acids, flavonoids, fixed oil and fat, phenol compounds, tannins, and steroids. The bacterial pathogens of fish, including Providencia vermicola, Aeromonas hydrophila, Vibrio harveyi, and Aeromonas caviae, were targeted for antibacterial assessment. Among them, the methanolic crude extract and fraction-1 of E. intestinalis have shown maximum activity against A. hydrophila (22 ± 0.13 and 33 ± 0.56 µg/mL). Column chromatography was employed to isolate effective seaweed fraction, while FT-IR and HPLC were utilized for characterization. The phytochemical analysis confirmed the presence of various compounds in both extracts. The crude methanolic extract of E. intestinalis have demonstrated the maximum efficacy beside the tested bacterial pathogens. The FT-IR analysis revealed functional groups associated with polymeric structures in the seaweed extracts, including alcohols, phenols, aromatics, alkyl halides, aliphatic amines, alkynes, and alkenes. Overall, the methanolic extract of E. intestinalis exhibited significant antibacterial activity as a result of the phenolic chemicals that are present. The study provides valuable baseline data, emphasizing the need for further research towards developing antibacterial drug formulations.

Published

2024

44. Comparative analysis of biofilm structures in Salmonella Typhimurium DMC4 strain and its dam and seqA gene mutants using Fourier transform infrared spectroscopy (FT-IR) and Raman spectroscopy methods

Author

Özdemir, Caner, Erdoğan, İbrahim, Özdemir, Kağan, Akçelik, Nefise, and Akçelik, Mustafa

Published

2024

45. Correlation Between PFP, ERAS, PC-SAFT Models and Experimental Validation Through Thermodynamic and Spectroscopic Analysis of Acetonitrile with Chloro Derivatives of Ethane Binary Mixtures at Varying Temperatures

Author

Taheri Parsa, Hadi, Iloukhani, Hossein, and Khanlarzadeh, Khatereh

Published

2024

46. Effect of partial replacement of whole milk khoa with groundnut (Arachis hypogaea) and sunflower seeds (Helianthus annuus) milk on biochemical and functional properties

Author

Sivaraj, Divyadharshini, Govindarajan, Nagamaniammai, and Pandiselvam, Ravi

Published

2024

47. Achillea aleppica and Achillea arabica (Asteraceae) Phytochemical FT-IR Analysis

Author

Basel Saleh

Subjects

achillea aleppica, achillea arabica, phytochemical analysis, ft-ir, Biochemistry, QD415-436

Abstract

Achillea genus is a flowering, aromatic and perennial herbs, and widespread all over the world. Plants phytochemical analysis has a capital role in pharmaceutical and medicine preliminary studies. Two medicinal Achillea species of A. aleppica DC and A. arabica Kotschy grown wild in the Middle-Southern regions of Syria were investigated for their phytochemical analysis using fourier-transform infrared (FT-IR) spectroscopy. FT-IR spectra highlighted 11 and 12 functional groups characteristics for A. aleppica and A. arabica species, respectively; of which 9 were common between the two studied species [Aromatics (1), Ethers (3), Carboxylic acids (2), Olefinic (alkene) (1), Alkanes (1) and Aliphatic primary amine (1) groups]. These constituents have been previously investigated for different biological activities. The current study could consider as the first report regarding FT-IR Achillea analysis.

Published

2024

48. Towards a natural treatment for mania: red onion husk extract modulates neuronal resilience, redox signalling, and glial activation.

Author

Ekeanyanwu, Chukwuma Raphael, Ekeanyanwu, Chidinma Lynda, and Ugochukwu, Kingsley Nnaemeka

Subjects

*ONIONS, *AGRICULTURAL wastes, *MANIA, *BEHAVIORAL assessment, *CEREBRAL cortex

Abstract

Background: Red onion husk, a readily available agricultural waste material, contains diverse bioactive compounds with potential health benefits. This study aimed to assess the safety and therapeutic potential of red onion husk extract in managing manic-like symptoms and associated neurochemical dysfunctions. Methods: Acute and repeated oral dose studies were conducted in mice and rats to evaluate the safety profile of the extract. FT-IR analysis identified functional groups in the extract, while GC-MS analysis identified specific bioactive compounds in the flavonoid-rich fraction. A ketamine-induced manic behaviour model in Wistar rats was employed to assess the extract's efficacy in attenuating manic-like symptoms. Behavioural and neurochemical analyses were performed to further investigate the extract's effects. Results: The extract demonstrated a favourable safety profile in both acute and repeated dose studies. FT-IR analysis revealed a complex mixture of organic compounds, including hydroxyl groups, alkynes/nitriles, aromatic and non-aromatic C = C bonds, amines, and polysaccharides. GC-MS analysis identified 17 bioactive compounds, including five-methyl-2-phenylindolizine, methadone N-oxide, and 3-phenylthiane, S-oxide. Ketamine administration significantly increased oxidative stress markers, TBARS, and suppressed antioxidant enzyme activities (SOD, GPx, CAT) in both the cerebral cortex and hippocampus, alongside elevated acetylcholinesterase (AchE) activity, indicating enhanced neuronal excitability. Pre-treatment with FRF (25 mg/kg) effectively mitigated ketamine-induced oxidative stress, as evidenced by reduced TBARS levels and partially restored SOD and GPx activities. Interestingly, FRF significantly increased CAT activity (p < 0.001), potentially suggesting an additional compensatory mechanism. Notably, FRF pre-treatment also counteracted ketamine-upregulated AchE activity, offering neuroprotection against heightened neuronal excitability. Conclusion: Red onion husk extract exhibits a favourable safety profile and exerts potent antioxidant and neuroprotective effects, possibly through modulating Nrf2 signalling pathways. Its ability to counteract ketamine-induced oxidative stress and neuronal hyperactivity highlights its potential as a complementary therapeutic strategy for managing manic episodes in bipolar disorder. Further research is warranted to elucidate the precise molecular mechanisms underlying FRF's action and explore its clinical efficacy in human studies. [ABSTRACT FROM AUTHOR]

Published

2024

49. GLICOSE SALIVAR: ASSOCIAÇÃO COM PARÂMETROS GLICO-LIPÊMICOS E QUANTIFICAÇÃO POR FT-IR EM TRABALHADORES RURAIS.

Author

Pappen Umpierres, Rosileidi, Hedwig Pohl, Hildegard, and Antonio Corbellini, Valeriano

Subjects

*MOLECULAR spectroscopy, *INFRARED absorption, *HDL cholesterol, *FOURIER transforms, *SEPARATION of variables

Abstract

A new method based on Fourier Transform Infrared Molecular Absorption Spectroscopy (FT-IR) and chemometrics was developed for the quantification of salivary glucose using saliva and blood samples from 104 rural workers from five municipalities of Rio Pardo Valley-RS, Brazil. The most relevant finding of the glyco-lipemic profile was the higher prevalence of elevated levels of total cholesterol and HDL in women (p<0.05). Hypertriglyceridemia was also more prevalent in women considering only values above the desirable maximum limit (1.0509 mmol.L-1). Salivary glucose ranged from 0 to 0.7221 mmol.L-1 and showed no significant correlation with the glyco-lipemic parameters evaluated. Partial least squares regression analysis between the first derivative salivary spectra acquired by the (SRIFTS) Specular Reflect technique and the respective salivary glucose values assessed by the enzymatic method gave rise to a chemometric model with good predictive quality (RMSECV=0,0007; RMSEP = 0,0009, R²=0,999990, p <0.0001). Therefore, it is concluded that the use of salivary glucose does not appear as a suitable biomarker to evaluate glyco-lipemic profile in rural workers. On the other hand, it can be easily estimated by FT-IR using a chemometric method. [ABSTRACT FROM AUTHOR]

Published

2024

50. Investigations on synthesis, growth and characterisations of a NLO material: L-Tryptophanium phosphite (LTP).

Author

Santhi, P. D. H. B., Samuel, R. S., Raja, R., Hidayathullah, A. M., Janarthanan, S., and Suresh, P.

Subjects

*NONLINEAR optical materials, *SECOND harmonic generation, *FREQUENCY changers, *SINGLE crystals, *LASER-induced breakdown spectroscopy, *VICKERS hardness

Abstract

The nonlinear optical material L-Tryptophanium phosphite (LTP) was synthesised and grown by the process of slow evaporation solution growth. Characterisations like single crystal XRD, FT-IR, and H1NMR spectral measurements were done to find the crystal structure and functional groups. The crystal was found to possess good transparency for the whole visible region from the UV-Vis-NIR spectral analysis. The thermal behaviour like stability and breakdown of the crystal were assessed using TG-DTA analyses. The hardness of the crystal was determined using Vickers micro hardness study. The Kurtz-Perry approach was used to study the nonlinear optical (NLO) characteristics of the crystal. A good value of conversion efficiency in second harmonic generation (SHG) makes the generated crystal suitable for frequency conversion. [ABSTRACT FROM AUTHOR]

Published

2024