Your search keyword '"substrates"' showing total 37,720 results

1. NR-Router+: Enhanced Non-Regular Electrode Routing With Optimal Pin Selection for Electrowetting-on-Dielectric Chips

Author

Pan, Youlin, Liu, Genggeng, Huang, Xing, Li, Zipeng, Huang, Hsin-Chuan, Liang, Chi-Chun, Wang, Qining, Kim, Chang-Jin, and Ho, Tsung-Yi

Subjects

Data Management and Data Science, Information and Computing Sciences, Engineering, Electronics, Sensors and Digital Hardware, Electrodes, Routing, Pins, Wires, Shape, Costs, Substrates, Digital microfluidic biochips, electrowetting-on-dielectric, network flow, nonregular electrodes, routing, Electrical and Electronic Engineering, Computer Hardware, Computer Hardware & Architecture, Electronics, sensors and digital hardware, Graphics, augmented reality and games

Published

2024

2. Improving Doping Efficiency of Mist-CVD Epitaxy for Tin-Doped α-Ga₂O₃ Using Tin Chloride Pentahydrate.

Author

Liu, Han-Yin, Cheng, Yun-Yun, Chen, Wei-Han, Hu, Ko-Fan, and Chiu, Nei-En

Abstract

Tin chloride pentahydrate (SnCl ${_{{4}}} \cdot 5$ H2O) is used as the dopant precursor to form the n-type $\alpha $ -Ga2O3 in this study. The X-ray diffraction (XRD) and high-resolution transmission electron microscope (HR-TEM) confirm that the single-crystalline $\alpha $ -Ga2O3:SnCl ${_{{4}}} \cdot 5$ H2O epi-layer was grown on the r-plane sapphire substrate using mist chemical vapor deposition (mist-CVD). When the Sn doping atomic concentrations are the same, the electron concentration of $\alpha $ -Ga2O3:SnCl ${_{{4}}} \cdot 5$ H2O is higher than that of $\alpha $ -Ga2O3:SnCl ${_{{2}}} \cdot 2$ H2O. The lower thermal decomposition temperature and lower residues of $\alpha $ -Ga2O3:SnCl ${_{{4}}} \cdot 5$ H2O are confirmed in thermogravimetric (TGA) analysis. Sn $3d_{5/2}$ binding energy spectra observed by X-ray photoelectron spectroscopy (XPS) show that SnCl ${_{{4}}} \cdot 5$ H2O provides more $Sn^{4+}$ than SnCl ${_{{2}}} \cdot 2$ H2O. The specific contact resistivity of $\alpha $ -Ga2O3:SnCl ${_{{4}}} \cdot 5$ H2O reaches $1.62\times 10{^{-}5 }~\Omega $ -cm2 with $10^{20}$ cm $^{-}3 $ Sn doping concentration. Moreover, the power figure-of-merit (PFoM) of $\alpha $ -Ga2O3:SnCl ${_{{4}}} \cdot 5$ H2O-based lateral Schottky barrier diode (SBD) is 0.356 GW/cm2 which is comparable to $\beta $ -Ga2O3-based SBD. [ABSTRACT FROM AUTHOR]

Published

2024

3. Photoresist Spray Coating on Silicon Wafers With Acoustic Resonance Atomization.

Author

Li, Jingjun, Wang, Xiukun, Sun, Yadong, and Zhang, Lei

Abstract

Aiming at the poor film evenness in conventional ultrasonic spraying coating methods, an acoustic resonance atomization (ARA) is proposed for spray coating on silicon wafers using an in-house experimental prototype. By modulating the acoustic pressure distribution in the optimized acoustic chamber, the ARA can achieve atomized photoresist droplets with $\sim 8.5~\mu $ m in median diameter and concentrated droplet concentration. For mesoscale photoresist droplets, the uniform film of AZ P4620 photoresist is coated on silicon wafers by exploring and optimizing the substrate temperatures and spray velocity. The mechanism of uniform film formation by mesoscale photoresist droplets is explored. Smaller droplets can effectively fill the micro-gaps within the photoresist film layer, forming a dense and uniform film. The experimental results demonstrate that the employed coating process can obtain a controllable photoresist film thickness and evenness index of less than 5% with a high-quality film layer, which provides an alternative technological solution for the spray coating. [ABSTRACT FROM AUTHOR]

Published

2024

4. Mapping Analysis of Crystalline Perfection and UV‐C Transparency of 2‐in. Aluminum Nitride Substrates Grown by Physical Vapor Transport.

Author

Dalmau, Rafael, Kirby, Samuel, Britt, Jeffrey, and Schlesser, Raoul

Subjects

*ALUMINUM nitride, *SUBSTRATES (Materials science), *ABSORPTION coefficients, *LIGHT absorption, *MASS production

Abstract

Large‐diameter, single‐crystalline aluminum nitride (AlN) substrates are sought for growth of AlGaN‐based devices. A combination of high crystalline perfection and optical transparency is desired for UV‐C emitter applications. A mapping analysis of 2‐in. AlN substrates grown by physical vapor transport is performed to study the within‐wafer uniformity of structural and optical properties. Substrates with spatially uniform crystalline perfection and UV‐C absorption coefficients, as determined by typical X‐ray rocking curve widths below 15 arcsec and 4.68 eV absorption coefficients below 20 cm−1, are shown. These findings demonstrate a robust mass production process for high‐quality, 2 in. AlN substrates possessing uniform structural and UV optical properties, making them highly suited for growth of next‐generation, AlGaN‐based devices. [ABSTRACT FROM AUTHOR]

Published

2024

5. Introduction and Development of Surface-Enhanced Raman Scattering (SERS) Substrates: A Review.

Author

Peng, Jianping, Song, Yutao, Lin, Yue, and Huang, Zhenkai

Subjects

*SERS spectroscopy, *MATERIALS science, *ANALYTICAL chemistry, *SUBSTRATES (Materials science), *SURFACE phenomenon

Abstract

Since its discovery, the phenomenon of Surface Enhanced Raman Scattering (SERS) has gradually become an important tool for analyzing the composition and structure of substances. As a trace technique that can efficiently and nondestructively detect single molecules, the application of SERS has expanded from environmental and materials science to biomedical fields. In the past decade or so, the explosive development of nanotechnology and nanomaterials has further boosted the research of SERS technology, as nanomaterial-based SERS substrates have shown good signal enhancement properties. So far, it is widely recognized that the morphology, size, composition, and stacking mode of nanomaterials have a very great influence on the strength of the substrate SERS effect. Herein, an overview of methods for the preparation of surface-enhanced Raman scattering (SERS) substrates is provided. Specifically, this review describes a variety of common SERS substrate preparation methods and explores the potential and promise of these methods for applications in chemical analysis and biomedical fields. By detailing the influence of different nanomaterials (e.g., metallic nanoparticles, nanowires, and nanostars) and their structural features on the SERS effect, this article aims to provide a comprehensive understanding of SERS substrate preparation techniques. [ABSTRACT FROM AUTHOR]

Published

2024

6. On the Role of Substrate in Hydroxyapatite Coating Formation by Cold Spray.

Author

Henao, John, Giraldo-Betancur, Astrid, Poblano-Salas, Carlos A., Espinosa-Arbelaez, Diego German, Corona-Castuera, Jorge, Forero-Sossa, Paola Andrea, and Diaz-Rebollar, Rene

Subjects

SUBSTRATES (Materials science), METAL hardness, HYDROXYAPATITE coating, INCONEL, METALLIC surfaces

Abstract

The deposition of agglomerated hydroxyapatite (HAp) powders by low-pressure cold spray has been a topic of interest in recent years. Key parameters influencing the deposition of HAp powders include particle morphology and impact kinetic energy. This work examines the deposition of HAp powders on various metal surfaces to assess the impact of substrate properties on the formation of HAp deposits via cold spray. The substrates studied here encompass metals with varying hardness and thermal conductivities, including Al6061, Inconel alloy 625, AISI 316 stainless steel, H13 tool steel, Ti6Al4V, and AZ31 alloy. Single-track experiments offer insights into the initial interactions between HAp particles and different substrate surfaces. In this study, the results indicate that the ductility of the substrate may enhance HAp particle deposition only at the first deposition stages where substrate/particle interaction is the most critical factor for deposition. Features on the substrate associated with the first deposition sprayed layer include localized substrate deformation and the formation of clusters of HAp agglomerates, which aid in HAp deposition. Furthermore, after multiple spraying passes on the various metallic surfaces, deposition efficiency was significantly reduced when the build-up process of HAp coatings shifted from ceramic/metal to ceramic/ceramic interactions. Overall, this study achieved agglomerated HAp deposits with high deposition efficiencies (30–60%) through single-track experiments and resulted in the preparation of HAp coatings on various substrates with thickness values ranging from 24 to 53 µm. These coatings exhibited bioactive behavior in simulated body fluid. [ABSTRACT FROM AUTHOR]

Published

2024

7. The significant others of aurora kinase a in cancer: combination is the key.

Author

Nikhil, Kumar and Shah, Kavita

Subjects

AURORA kinases, MITOCHONDRIAL dynamics, DNA replication, DRUG target, CELL cycle

Abstract

AURKA is predominantly famous as an essential mitotic kinase. Recent findings have also established its critical role in a plethora of other biological processes including ciliogenesis, mitochondrial dynamics, neuronal outgrowth, DNA replication and cell cycle progression. AURKA overexpression in numerous cancers is strongly associated with poor prognosis and survival. Still no AURKA-targeted drug has been approved yet, partially because of the associated collateral toxicity and partly due to its limited efficacy as a single agent in a wide range of tumors. Mechanistically, AURKA overexpression allows it to phosphorylate numerous pathological substrates promoting highly aggressive oncogenic phenotypes. Our review examines the most recent advances in AURKA regulation and focuses on 33 such direct cancer-specific targets of AURKA and their associated oncogenic signaling cascades. One of the common themes that emerge is that AURKA is often involved in a feedback loop with its substrates, which could be the decisive factor causing its sustained upregulation and hyperactivation in cancer cells, an Achilles heel not exploited before. This dynamic interplay between AURKA and its substrates offers potential opportunities for targeted therapeutic interventions. By targeting these substrates, it may be possible to disrupt this feedback loop to effectively reverse AURKA levels, thereby providing a promising avenue for developing safer AURKA-targeted therapeutics. Additionally, exploring the synergistic effects of AURKA inhibition with its other oncogenic and/or tumor-suppressor targets could provide further opportunities for developing effective combination therapies against AURKA-driven cancers, thereby maximizing its potential as a critical drug target. [ABSTRACT FROM AUTHOR]

Published

2024

8. The Role of Camellia Shell Substrates in Modulating the Nutritional Characteristics of Pleurotus pulmonarius.

Author

Huang, Yikai, Wang, Weike, Lu, Na, Yu, Jing, Chen, Shaoning, and Liang, Zongsuo

Subjects

AGRICULTURAL wastes, EDIBLE fungi, POLYSACCHARIDES, CAMELLIAS, FREE radicals

Abstract

Camellia shells are the main by-product of camellia seed processing and are usually incinerated or disposed of as agricultural waste. In this study, camellia shells were employed in the Pleurotus pulmonarius cultivation process using five distinct formulae substituting for cottonseed shells. Our results show that as the substitution rate of camellia shells increased from 0% to 35%, the protein content in P. pulmonarius significantly increased from 34.05% to 53.35%. The polysaccharide content reached a peak value of 5.62% at 30% substitution of camellia shells. The DPPH free radical scavenging rate reached its maximum of 82.70% at 20% substitution of camellia shells. Furthermore, increases in the total amino acid contents in P. pulmonarius were positively correlated with the substitution rate of camellia shells. Considering the yield characteristics, the formula of 20% camellia shell substitution tested in this study appears to be optimal for P. pulmonarius cultivation. These findings not only provide a substrate to enhance the nutritional quality of P. pulmonarius but also demonstrate a novel approach for the ecological utilization of camellia shells. [ABSTRACT FROM AUTHOR]

Published

2024

9. Treatment of domestic wastewater and extracellular polymeric substance accumulation in siphon‐type composite vertical subsurface flow constructed wetland.

Author

Jiang, Cheng, Qiu, Lin, Wu, Hao, Nie, Fahui, Liu, Yong, and Cao, Wenping

Subjects

*ADSORPTION (Chemistry), *SEWAGE purification, *PHYSISORPTION, *CHEMICAL oxygen demand, *SUBSTRATES (Materials science)

Abstract

In this study, the siphon‐type composite vertical flow constructed wetland (Sc‐VSsFCW) was constructed with anthracite and shale ceramsite chosen as the substrate bed materials. During the 90‐day experiment, typical pollutant removal effects of wastewater and extracellular polymeric substance (EPS) accumulation were investigated. Meanwhile, X‐ray diffraction and scanning electron microscopy were used to examine the phase composition and surface morphology to analyze adsorptive property. Additionally, we evaluated the impact of siphon effluent on clogging and depolymerization by measuring the EPS components' evolution within the system. The findings reveal that both the anthracite and shale ceramsite systems exhibit impressive removal efficiencies for total phosphorus (TP), total dissolved phosphorus (TDP), soluble reactive phosphorus (SRP), chemical oxygen demand (COD), ammonium nitrogen (NH4+‐N), and nitrate nitrogen (NO3−‐N). However, as the experiment progressed, TP removal rates in both systems gradually declined because of the saturation of adsorption sites on the substrate surfaces. Although the dissolved oxygen (DO) levels remained relatively stable throughout the experiment, pH exhibited distinct patterns, suggesting that the anthracite system relies primarily on chemical adsorption, whereas the shale ceramsite system predominantly utilizes physical adsorption. After an initial period of fluctuation, the permeability coefficient and porosity of the system gradually stabilized, and the protein and polysaccharide contents in both systems exhibited a downward trend. The study underscores that anthracite and shale ceramsite have good effectiveness in pollutant removal as substrate materials. Overall, the hydraulic conditions of the double repeated oxygen coupling siphon in the Sc‐VSsFCW system contribute to enhanced re‐oxygenation capacity and permeability coefficient during operation. The changes in EPS content indicate that the siphon effluent exerts a certain depolymerization effect on the EPS within the system, thereby mitigating the risk of biological clogging to a certain extent. Practitioner Points: The system can still maintain good pollutant treatment effect in long‐term operation.The re‐oxygenation method of the system can achieve efficient and long‐term re‐oxygenation effect.The siphon effluent has a certain improvement effect on the permeability coefficient and porosity, but it cannot effectively inhibit the occurrence of clogging.The EPS content did not change significantly during the operation of the system, and there was a risk of biological clogging. [ABSTRACT FROM AUTHOR]

Published

2024

10. P450Rdb: A manually curated database of reactions catalyzed by cytochrome P450 enzymes.

Author

Zhang, Yang, Pan, Xianrun, Shi, Tianyu, Gu, Zhifeng, Yang, Zhaochang, Liu, Minghao, Xu, Yi, Yang, Yu, Ren, Liping, Song, Xiaoming, Lin, Hao, and Deng, Kejun

Subjects

*CHEMICAL reactions, *BIOTECHNOLOGY, *CYTOCHROME P-450, *DATABASES, *CROP improvement

Abstract

[Display omitted] • P450Rdb compiles a comprehensive catalog of over 1,600 reactions catalyzed by P450s. • P450Rdb has collected a diverse collection of more than 590 P450s from over 200 species. • P450Rdb systematically organizes all reactions based on their chemical reaction type and site. • P450Rdb provides a user-friendly interface on P450s and their associated reactions. • P450Rdb is beneficial for research in synthetic biology, pharmacology, and the chemical industry. Cytochrome P450 enzymes (P450s) are recognized as the most versatile catalysts worldwide, playing vital roles in numerous biological metabolism and biosynthesis processes across all kingdoms of life. Despite the vast number of P450 genes available in databases (over 300,000), only a small fraction of them (less than 0.2 %) have undergone functional characterization. To provide a convenient platform with abundant information on P450s and their corresponding reactions, we introduce the P450Rdb database, a manually curated resource compiles literature-supported reactions catalyzed by P450s. All the P450s and Reactions were manually curated from the literature and known databases. Subsequently, the P450 reactions organized and categorized according to their chemical reaction type and site. The website was developed using HTML and PHP languages, with the MySQL server utilized for data storage. The current version of P450Rdb catalogs over 1,600 reactions, involving more than 590 P450s across a diverse range of over 200 species. Additionally, it offers a user-friendly interface with comprehensive information, enabling easy querying, browsing, and analysis of P450s and their corresponding reactions. P450Rdb is free available at http://www.cellknowledge.com.cn/p450rdb/. We believe that this database will significantly promote structural and functional research on P450s, thereby fostering advancements in the fields of natural product synthesis, pharmaceutical engineering, biotechnological applications, agricultural and crop improvement, and the chemical industry. [ABSTRACT FROM AUTHOR]

Published

2024

11. Biohydrogen Produced via Dark Fermentation: A Review.

Author

Albuquerque, Marcela Moreira, Sartor, Gabriela de Bona, Martinez-Burgos, Walter Jose, Scapini, Thamarys, Edwiges, Thiago, Soccol, Carlos Ricardo, and Medeiros, Adriane Bianchi Pedroni

Subjects

HYDROGEN production, CLEAN energy, RENEWABLE energy sources, FERMENTATION, BIOMASS energy

Abstract

Hydrogen (H2) is a highly efficient and clean energy source with the potential for renewable energy. The production of H2 from biological routes such as biophotolysis, photofermentation, dark fermentation, and bioelectrochemical production is characterized as a renewable alternative to current production, which is mainly based on energy-intensive electrochemical and thermochemical processes and responsible for the emission of high amounts of environmentally harmful compounds. Dark fermentation is the most efficient and cost-effective method for producing biohydrogen, making it a key research focus. This article offers a comprehensive overview of the dark fermentation process with the aim of enhancing hydrogen productivity and yields. Aspects related to the main substrates used, the inoculum sources and their pretreatment, and physical-chemical parameters of the process are covered. Furthermore, this manuscript addresses topics such as process integration, genetic and metabolic engineering of fermentative microorganisms, and the main types of bioreactors aimed at greater yields and productivity of biohydrogen to enable its production through dark fermentation on a larger scale. [ABSTRACT FROM AUTHOR]

Published

2024

12. Nutritional, Phytochemical and Therapeutic Attributes of Edible Wild Mushrooms as Influenced by Substrates in Humid Tropical Environment.

Author

Eze, Emmanuel I., Agbo, Christian U., Chukwudi, Uchechukwu P., and Umeh, Bravo U.

Subjects

EDIBLE mushrooms, TRADITIONAL medicine, THERAPEUTICS, MEDICINAL plants, ANTIOXIDANTS, PLANT extracts

Abstract

Edible wild mushrooms (EWM) help low-income families maintain their food security and nutrition. Information on the nutritional and phytochemical compositions of EWM is needed due to their contribution to food security, nutrition and therapeutic values to millions of people in Africa and Asia. The objective of this study was to assess the proximate, mineral, vitamin, and phytochemical compositions of therapeutic importance in edible wild mushrooms. Seven EWM species were gathered, identified, and analyzed for physical, nutritional, and phytochemical composition. The data were statistically analysed. The EWMs' proximate, mineral, vitamin and phytochemical contents varied significantly. Protein concentrations ranged from 3% to 19.48%. The ranges for fibre, ash, and carbohydrate were 0.83-5.25%, 1.77-12.25%, and 1.42-9.08%, respectively. K, Na, and P were the most abundant minerals in this study, followed by Mg and Ca. Vitamin A was the most abundant vitamin in the wild mushrooms studied, followed by vitamin C and vitamin E. Phenols, alkaloids, flavonoids, tannins, and saponin were also found in the EWM. The mean performance and stability analysis indicated that Termitomyces le-testui ranked higher than the population mean in mineral, vitamins and phytochemical compositions. Ganoderma lucidum was the least ranked mushroom for mineral, vitamins and phytochemical compositions. The results of this study can aid dieticians, nutritionists and pharmacists in identifying mushrooms with high nutritional and therapeutic values while foraging in the wild. Exploring these differences in mushroom content will be helpful in the pharmaceutical industry, in clinical settings for human therapeutic applications, and in reducing hidden hunger. [ABSTRACT FROM AUTHOR]

Published

2024

13. Bacterial cellulose cookbook: A systematic review on sustainable and cost-effective substrates

Author

Luis Quijano, Raquel Rodrigues, Dagmar Fischer, Jorge David Tovar-Castro, Alice Payne, Laura Navone, Yating Hu, Hao Yan, Phitsanu Pinmanee, Edgar Poon, Jinghe Yang, and Eve Barro

Subjects

Bacterial cellulose, Cost-effective, Fermentation, Hestrin–Schramm, Substrates, Systematic review, Biochemistry, QD415-436

Abstract

Bacterial cellulose is a versatile material with applications in many industries. However, the widespread uptake of bacterial cellulose faces challenges including high production costs and lack of scalability. One approach to address these obstacles is the use of alternative substrates and media, compared to the Hestrin–Schramm (HS) media. By evaluating and selecting appropriate media and substrates, the production of bacterial cellulose can be more efficient: enabling sustainable systems and supply chains where less energy and materials are lost, and the output production is increased. The purpose of this paper is to analyze the current landscape of bacterial cellulose alternative media and substrates (ingredients). Through a systematic review of 198 papers, this review identifies 299 alternative substrates from 12 industries and 101 bacterial cellulose-producing strains, which were systematically compared. This review also finds that there are methodological gaps in this field such as data variability, papers mislabelling the HS media or not using a comparison media, and a lack of strain names. This alternative substrate analysis for bacterial cellulose production demonstrates that overall, for some applications alternative substrates can be taken into consideration that are not only cheaper, but also produce higher yields than HS media.

Published

2024

14. Biohydrogen Produced via Dark Fermentation: A Review

Author

Marcela Moreira Albuquerque, Gabriela de Bona Sartor, Walter Jose Martinez-Burgos, Thamarys Scapini, Thiago Edwiges, Carlos Ricardo Soccol, and Adriane Bianchi Pedroni Medeiros

Subjects

biofuel, biological routes, substrates, inoculum, pretreatments, Biochemistry, QD415-436, Geophysics. Cosmic physics, QC801-809

Abstract

Hydrogen (H2) is a highly efficient and clean energy source with the potential for renewable energy. The production of H2 from biological routes such as biophotolysis, photofermentation, dark fermentation, and bioelectrochemical production is characterized as a renewable alternative to current production, which is mainly based on energy-intensive electrochemical and thermochemical processes and responsible for the emission of high amounts of environmentally harmful compounds. Dark fermentation is the most efficient and cost-effective method for producing biohydrogen, making it a key research focus. This article offers a comprehensive overview of the dark fermentation process with the aim of enhancing hydrogen productivity and yields. Aspects related to the main substrates used, the inoculum sources and their pretreatment, and physical-chemical parameters of the process are covered. Furthermore, this manuscript addresses topics such as process integration, genetic and metabolic engineering of fermentative microorganisms, and the main types of bioreactors aimed at greater yields and productivity of biohydrogen to enable its production through dark fermentation on a larger scale.

Published

2024

15. The significant others of aurora kinase a in cancer: combination is the key

Author

Kumar Nikhil and Kavita Shah

Subjects

AURKA, Cancer, Substrates, VHL, HURP, p53, Therapeutics. Pharmacology, RM1-950

Abstract

Abstract AURKA is predominantly famous as an essential mitotic kinase. Recent findings have also established its critical role in a plethora of other biological processes including ciliogenesis, mitochondrial dynamics, neuronal outgrowth, DNA replication and cell cycle progression. AURKA overexpression in numerous cancers is strongly associated with poor prognosis and survival. Still no AURKA-targeted drug has been approved yet, partially because of the associated collateral toxicity and partly due to its limited efficacy as a single agent in a wide range of tumors. Mechanistically, AURKA overexpression allows it to phosphorylate numerous pathological substrates promoting highly aggressive oncogenic phenotypes. Our review examines the most recent advances in AURKA regulation and focuses on 33 such direct cancer-specific targets of AURKA and their associated oncogenic signaling cascades. One of the common themes that emerge is that AURKA is often involved in a feedback loop with its substrates, which could be the decisive factor causing its sustained upregulation and hyperactivation in cancer cells, an Achilles heel not exploited before. This dynamic interplay between AURKA and its substrates offers potential opportunities for targeted therapeutic interventions. By targeting these substrates, it may be possible to disrupt this feedback loop to effectively reverse AURKA levels, thereby providing a promising avenue for developing safer AURKA-targeted therapeutics. Additionally, exploring the synergistic effects of AURKA inhibition with its other oncogenic and/or tumor-suppressor targets could provide further opportunities for developing effective combination therapies against AURKA-driven cancers, thereby maximizing its potential as a critical drug target.

Published

2024

16. P450Rdb: A manually curated database of reactions catalyzed by cytochrome P450 enzymes

Author

Yang Zhang, Xianrun Pan, Tianyu Shi, Zhifeng Gu, Zhaochang Yang, Minghao Liu, Yi Xu, Yu Yang, Liping Ren, Xiaoming Song, Hao Lin, and Kejun Deng

Subjects

Cytochrome P450 enzymes, Reactions, Substrates, Products, Database, Medicine (General), R5-920, Science (General), Q1-390

Abstract

Introduction: Cytochrome P450 enzymes (P450s) are recognized as the most versatile catalysts worldwide, playing vital roles in numerous biological metabolism and biosynthesis processes across all kingdoms of life. Despite the vast number of P450 genes available in databases (over 300,000), only a small fraction of them (less than 0.2 %) have undergone functional characterization. Objectives: To provide a convenient platform with abundant information on P450s and their corresponding reactions, we introduce the P450Rdb database, a manually curated resource compiles literature-supported reactions catalyzed by P450s. Methods: All the P450s and Reactions were manually curated from the literature and known databases. Subsequently, the P450 reactions organized and categorized according to their chemical reaction type and site. The website was developed using HTML and PHP languages, with the MySQL server utilized for data storage. Results: The current version of P450Rdb catalogs over 1,600 reactions, involving more than 590 P450s across a diverse range of over 200 species. Additionally, it offers a user-friendly interface with comprehensive information, enabling easy querying, browsing, and analysis of P450s and their corresponding reactions. P450Rdb is free available at http://www.cellknowledge.com.cn/p450rdb/. Conclusions: We believe that this database will significantly promote structural and functional research on P450s, thereby fostering advancements in the fields of natural product synthesis, pharmaceutical engineering, biotechnological applications, agricultural and crop improvement, and the chemical industry.

Published

2024

17. Effects of different nut pretreatments and substrates on germination and seedlings growth of Neocarya macrophylla Sabine in Basse Casamance, Senegal

Author

Sambou A, Dieme JS, Camara B, Dione F, and Balde B

Subjects

Neocarya macrophylla, Germination, Performance, Provenance, Pretreatment, Substrates, Forestry, SD1-669.5

Abstract

Neocarya macrophylla Sabine (Gingerbread plum) is a tree species that plays an important role in providing ecosystem services. Despite its importance, the diversity and density of N. macrophylla stands have decreased significantly due to natural and anthropogenic factors. There is a need for better knowledge of N. macrophylla seedling production techniques for successful reforestation. This study aimed to evaluate the effects of pre-treatment and substrates on germination and growth of N. macrophylla seedlings. A completely randomized design with three replications and 12 elementary plots of nine polyethylene bags was installed. The three studied factors were provenances (Enampor and Mlomp), pre-treatments (crushed and non-crushed nuts), and substrates (cow and peanuts manures and control-sand). Nut and kernel size and weight, germination, growth parameters (height, diameter, number of leaves and lateral roots, and length of main root), and dry biomass were measured. The results showed that nut size and weight varied significantly (p

Published

2024

18. Major implications of single nucleotide polymorphisms in human carboxylesterase 1 on substrate bioavailability.

Author

Yerrakula, Goutham, Abraham, Shyno, John, Shiji, Zeharvi, Mehrukh, George, Samuel Gideon, Senthil, V., Maiz, Fathi, and Rahman, Md. Habibur

Abstract

The number of studies and reviews conducted for the Carboxylesterase gene is limited in comparison with other enzymes. Carboxylesterase (CES) gene or human carboxylesterases (hCES) is a multigene protein belonging to the α/β-hydrolase family. Over the last decade, two major carboxylesterases (CES1 and CES2), located at 16q13–q22.1 on human chromosome 16 have been extensively studied as important mediators in the metabolism of a wide range of substrates. hCES1 is the most widely expressed enzyme in humans, and it is found in the liver. In this review, details regarding CES1 substrates include both inducers (e.g. Rifampicin) and inhibitors (e.g. Enalapril, Diltiazem, Simvastatin) and different types of hCES1 polymorphisms (nsSNPs) such as rs2244613 and rs71647871. along with their effects on various CES1 substrates were documented. Few instances where the presence of nsSNPs exerted a positive influence on certain substrates which are hydrolyzed via hCES1, such as anti-platelets like Clopidogrel when co-administered with other medications such as angiotensin-converting enzyme (ACE) inhibitors were also recorded. Remdesivir, an ester prodrug is widely used for the treatment of COVID-19, being a CES substrate, it is a potent inhibitor of CES2 and is hydrolyzed via CES1. The details provided in this review could give a clear-cut idea or information that could be used for further studies regarding the safety and efficacy of CES1 substrate. [ABSTRACT FROM AUTHOR]

Published

2024

19. Evaluation of the Influence of Varied Juncao Grass Substrates on Physiological and Enzymatic Reactions of Pleurotus ostreatus

Author

Irambona Claude, Nsanzinshuti Aimable, Hatungimana Mediatrice, Hengyu Zhou, Dongmei Lin, Penghu Liu, and Zhanxi Lin

Subjects

substrates, Pleurotus ostreatus, biological efficiency, yield, enzymes, Biology (General), QH301-705.5

Abstract

Pleurotus ostreutus is one of the world’s most commonly consumed mushrooms. The cultivation of mushrooms using wood resources usually results in environmental issues such as deforestation. Juncao grasses, namely (JJ) Cenchrus fungigraminus, (AR) Saccharum arundinaceum, and (MS) Miscanthus floridulus, supplemented with 20% wheat brain, 1% ground coffee, 1% gysum, and 1% lime, were used as the culture mediums in this research, which offers a composting system with a simple formulation that is cheap and feasible for small farms to use in cultivating oyster mushrooms. The present study assessed the different juncao grasses as substrates for growing Pleurotus ostreatus given their enzyme activities, growth, and yields. The results demonstrated that the yields of pleurotus ostreatus grown on JJ, AR, and MS substrates were significantly different at the level of 0.05 and were recorded as follows: 159.2 g/bag, 132 g/bag, and 65.1 g/bag on average, respectively. The biological efficiency of Pleurotus ostreatus cultivated in three different substrates was 75.2%, 63.4%, and 28.7%, respectively. Lignin peroxidase (LiP) was the most active enzyme in each culture material among the other enzyme activities expressed differently between the substrate and growing stages. At the same time, other enzyme activities were differently expressed between the substrate and different developmental stages. Nutrient analysis revealed significant variations, with differences in polysaccharides, proteins, and amino acids among substrates, as well as the presence of heavy metals such as arsenic, lead, mercury, and cadmium in all samples within safe limits. The obtained results indicated that Saccharum arundinaceum is a good substrate in place of Cenchrus fungigraminus, and that using Miscanthus floridulus is not productive. Moreover, the juncao grasses offer a sustainable approach that reduces reliance on wood-based substrates and enhances environmental sustainability.

Published

2024

20. <italic>Thyridium livistonae</italic> sp. nov. from Yunnan Province, China, with two new combinations.

Author

Song, Jing, Karunarathna, Samantha C., Senanayake, Indunil C., and Yu, Fu-Qiang

Subjects

*SAPROPHYTES, *PHYLOGENY, *MORPHOLOGY, *SPECIES, *FUNGI

Abstract

An ascomycetous fungus was collected and isolated from dead leaves of Livistona chinensis in Lincang City, Yunnan Province, China, and morphology and multi-gene phylogenetic analyses of LSU, ITS, Actin, and β-tub were carried out to identify it. The morphology and multigene phylogeny revealed that this fungus is a distinct species of Thyridium. Therefore, this fungus is described and introduced as Thyridium livistonae sp. nov. In addition, two new combinations T. hipposidericola and T. xishuangbannaense are proposed based on morphology and phylogeny for Phialemoniopsis hipposidericola Karun., Tibpromma & X.F. Liu and P. xishuangbannaensis Karun., Tibpromma & X.F. Liu respectively. A detailed description, illustrations, and phylogenetic results are provided for the new species and two new combinations. [ABSTRACT FROM AUTHOR]

Published

2024

21. Role of Substrate on the Fractal Characteristics of Nanostructure Surfaces of Electrodeposited Nickel Thin Films.

Author

Nasehnejad, Maryam and Nabiyouni, Gholamreza

Subjects

*SUBSTRATES (Materials science), *FRACTAL dimensions, *ATOMIC force microscopy, *THIN films, *FRACTAL analysis, *NICKEL films

Abstract

This study investigates the structure, morphological, and roughness properties of electrodeposited nickel thin films grown on different substrates, that is, silicon, copper, and gold. X‐ray diffraction analysis reveals that the Ni coatings exhibit a face‐centered‐cubic phase, regardless of the substrate used, although the texture is mainly influenced by the substrate. Atomic force microscopy images show that larger grains are obtained with gold substrates, while smaller ones are observed with copper and silicon substrates, in agreement with scanning electron microscopy. The results demonstrate that both topological and fractal characteristics of the Ni thin films are significantly influenced by the type of substrate. Statistical parameters are quantified to compare the surface morphology of the different samples. Fractal analysis reveals that the fractal dimensions of all surfaces range between 2 and 3, indicating self‐affinity. Fractal succolarity and lacunarity are measured to assess the penetration of a liquid into the surface and the distribution of gaps in the Ni film surfaces, respectively. Minkowski functionals are utilized for topological analysis to characterize the internal structure of the Ni thin films. The observed differences in roughness characteristics provide evidence that the type of substrate affects the nucleation and growth of surface features during electrodeposition. [ABSTRACT FROM AUTHOR]

Published

2024

22. Advances in the Thermal Study of Polymers for Microelectronics Using the Thermally Induced Curvature Approach.

Author

Vavrille, Benjamin, Vignoud, Lionel, Chapelon, Laurent-Luc, and Estevez, Rafael

Subjects

*POISSON'S ratio, *THERMOMECHANICAL properties of metals, *YOUNG'S modulus, *SILICON polymers, *SUBSTRATES (Materials science)

Abstract

Thermoset resins are singular materials in the field of microelectronics. Because they exhibit a high contrast of thermomechanical properties with other integrated materials like oxides, metals or silicon, polymers can threaten the mechanical integrity of stacks. Knowing polymer properties allows manufacturers to foresee the compatibility between materials and improve chipsets reliability. At a bilayer scale, the properties mismatch between the polymer film and the silicon substrate causes an overall curvature of the wafer which evolves with temperature. By comparing the thermally induced curvature of two distinct substrates with the same film, the biaxial modulus and the coefficient of thermal expansion of the film can be determined. This method can not only check the achievement of the polymer cross-linking, but also estimates their relaxation temperatures. In this article, we present the ability of this method to, not only, measure those properties in the glassy state, but also, for the first time, in the rubbery state. We also illustrate the proficiency of this approach in detecting and characterizing two successive glassy states. [ABSTRACT FROM AUTHOR]

Published

2024

23. Research Toward Wafer-Scale 3D Integration of InP Membrane Photonics With InP Electronics.

Author

Abdi, S., Nodjiadjim, V., Hersent, R., Riet, M., Mismer, C., de Vries, T., Williams, K. A., and Jiao, Y.

Subjects

*OPTICAL receivers, *OPTICAL transmitters, *SEMICONDUCTOR wafer bonding, *SEMICONDUCTOR materials, *INDIUM phosphide

Abstract

In this study, we focus on the development of key processes towards wafer-scale 3-dimentional/vertical (3D) integration of Indium-Phosphide (InP) photonic membranes on InP electronics via adhesive bonding. First, we identified the most critical steps and optimized them to achieve high thermal and mechanical compatibility of components for the co-integration process. Next, we developed a strategy for InP-to-InP wafer bonding with high topology tolerance, and introduced hard benzocyclobutene (BCB) anchors to preserve the alignment and BCB thickness uniformity after bonding. The resulting bond layer is homogeneous in terms of physical and mechanical properties. Finally, we developed a novel method to selectively remove the InP substrate from the photonics side via wet etching while protecting the electronics carrier wafer with hermetic multi-layer coatings. The investigation of these key steps is essential for scalable 3D integration of photonics and electronics at ultra short distances (< $15 ~\mu \text{m}$). [ABSTRACT FROM AUTHOR]

Published

2024

24. 不同基质和播种密度对洋葱小鳞茎产出个数的影响.

Author

阿热孜姑·吐逊, 贾凯, and 高杰

Abstract

Copyright of Xinjiang Agricultural Sciences is the property of Xinjiang Agricultural Sciences 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

25. Anticipating the winds of change: A baseline assessment of Northeastern US continental shelf surficial substrates.

Author

Stokesbury, Kevin D. E., Bethoney, N. David, Restrepo, Felipe, and Harris, Bradley P.

Subjects

*CONTINENTAL shelf, *WIND power industry, *GEOLOGY databases, *BIG data, *WIND power, *ENERGY development

Abstract

The introduction of thousands of wind turbines along the North American Atlantic continental shelf over the next decade will constitute the largest regional change in marine substrates since the retreat of the Laurentide Ice Sheet over 14,000 years ago. Here, two large data sets, SMAST drop camera survey (242,949 samples, 2003 to 2019) and the US Geological Survey databases (27,784 samples, 1966 to 2011), are combined to derive sea floor surficial substrate probability maps for the Northeastern US continental shelf from Virginia Beach to the Gulf of Maine to 300 m depth (218,571 km2). Geostatistical models were used to estimate the probability of five geologic and one biogenic substrate types being present at a 250 m resolution, and the proportional contribution of each substrate type to the seabed composition at a 500 m resolution. By providing the first synoptic maps depicting the probability of a particular substrate or combination of substrates occurring at any location on the Northeastern US continental shelf, including planned wind energy sites, we aim to (1) provide insights regarding how substrates in the areas selected for wind energy development compare with other locations, (2) motivate the development of a priori expectations for ecosystem changes to inform monitoring and research efforts going forward, and (3) to provide a baseline characterization of the Northeastern US continental shelf surficial substrates to support robust examination of the future changes observed in areas impacted by wind energy installations. [ABSTRACT FROM AUTHOR]

Published

2024

26. High-efficiency green machining of single crystal 4H–SiC based on tribo-oxidation.

Author

Wu, Zhe, Zhang, Yuqi, Wang, Chengwu, Liu, Yong, Li, Haoxiang, Yuan, Julong, and Liu, Zhifeng

Subjects

*SINGLE crystals, *MACHINING, *SURFACE roughness, *ELECTROCHEMICAL cutting, *RESIDUAL stresses, *SILICON crystals, *SILICON carbide

Abstract

High efficiency, high quality and green machining of single crystal silicon carbide (SiC) is an important issue in the third-generation semiconductor industry. In this paper, a novel machining method for single crystal SiC based on tribo-oxidation is proposed. The formula and preparation process of polysaccharide bonded soft abrasive tool were designed. Dry machining of C-face of 4H–SiC substrate was carried out with the prepared environmentally friendly abrasive tool sample. The material removal mechanism of the proposed machining method was preliminarily analyzed, and the material removal rate, surface roughness and subsurface residual stress were studied. The experimental results show that the maximum material removal rate of 4H–SiC can reach 1.03 μm/min with a corresponding average surface roughness of S a 0.816 nm. The machined surface has no brittle flaw, and subsurface residual compressive stress exists with a maximum value of 58.9 MPa. The material removal mainly attributed to the active oxidation of SiC surface induced by the friction between alumina abrasives and SiC substrate. The proposed machining method has potential application value in thinning of SiC wafers. [ABSTRACT FROM AUTHOR]

Published

2024

27. Analysis of accepted substrates for anaerobic co-digestion at the WWTP in Straubing, Germany.

Author

BERRÍO, JULIANA and CATALINA OSSA, LAURA

Subjects

*RENEWABLE energy sources, *CLEAN energy, *SEWAGE disposal plants, *BIOMASS energy, *RENEWABLE energy transition (Government policy), *BIOGAS production, *ORGANIC wastes

Abstract

The adoption of new forms of energy production is one of the challenges faced by countries worldwide due to the progressive depletion of fossil fuels. In this regard, the co-digestion of organic waste in Wastewater Treatment Plants (WWTP) has gained widespread acceptance, as it not only provides an alternative for the utilization of several types of biomasses to meet energy needs but also assists in waste management and nutrient recovery. However, accepting additional substrates for co-digestion requires careful physicochemical studies, as their characteristics can influence both the stability of the process and the quality and production of biogas. In line with the above, this study implemented the case study method through descriptive analysis to evaluate the substrates accepted for anaerobic co-digestion in the Straubing WWTP in Germany (SER GmbH). As a result, it was found that floating fats (C1) and milk with inhibitors (C5) were the substrates that exhibited the highest biogas production per unit of treated mass, 90% more than distillation residues and 70% more than raw sludge. These findings underscore the importance of carefully selecting substrates for codigestion in WWTPs, highlighting the potential to harness valuable resources, as evaluated in this study, to increase efficiency in biogas production and, therefore, promote a more effective transition to sustainable energy sources in the global context. The Straubing WWTP in Germany thus becomes an example of the possibilities offered by co-digestion in sustainable energy generation and waste management. The inclusion of floating fats and milk with inhibitors as successful substrates illustrates how research and careful implementation can optimize the performance of these facilities. [ABSTRACT FROM AUTHOR]

Published

2024

28. Surface Deformation of Biocompatible Materials: Recent Advances in Biological Applications.

Author

Yoon, Sunhee, Fuwad, Ahmed, Jeong, Seorin, Cho, Hyeran, Jeon, Tae-Joon, and Kim, Sun Min

Subjects

*DEFORMATION of surfaces, *MICROPHYSIOLOGICAL systems, *SURFACE topography, *BIOMATERIALS, *BIOMEDICAL materials, *BIOSENSORS

Abstract

The surface topography of substrates is a crucial factor that determines the interaction with biological materials in bioengineering research. Therefore, it is important to appropriately modify the surface topography according to the research purpose. Surface topography can be fabricated in various forms, such as wrinkles, creases, and ridges using surface deformation techniques, which can contribute to the performance enhancement of cell chips, organ chips, and biosensors. This review provides a comprehensive overview of the characteristics of soft, hard, and hybrid substrates used in the bioengineering field and the surface deformation techniques applied to the substrates. Furthermore, this review summarizes the cases of cell-based research and other applications, such as biosensor research, that utilize surface deformation techniques. In cell-based research, various studies have reported optimized cell behavior and differentiation through surface deformation, while, in the biosensor and biofilm fields, performance improvement cases due to surface deformation have been reported. Through these studies, we confirm the contribution of surface deformation techniques to the advancement of the bioengineering field. In the future, it is expected that the application of surface deformation techniques to the real-time interaction analysis between biological materials and dynamically deformable substrates will increase the utilization and importance of these techniques in various fields, including cell research and biosensors. [ABSTRACT FROM AUTHOR]

Published

2024

29. Research Progress on the Removal of Contaminants from Wastewater by Constructed Wetland Substrate: A Review.

Author

Wang, Liyan, Ma, Leihui, Wang, Junke, Zhao, Xia, Jing, Yushu, Liu, Changqing, Xiao, Yihua, Li, Cang, Jiao, Chen, and Xu, Mengchen

Subjects

CONSTRUCTED wetlands, SUBSTRATES (Materials science), BIOCHEMICAL substrates, SEWAGE purification, POLLUTANTS, HABITATS, WETLAND conservation

Abstract

Constructed wetlands (CWs) primarily achieve efficient wastewater purification through synergistic interactions among substrates, plants, and microorganisms. Serving as the structural foundation of the entire wetland system, substrates not only provide a growth medium for plants, but also serve as adhesive carriers for microorganisms and habitats for animal activities. Research on substrates has attracted considerable attention; however, in practical engineering applications, the selection of substrates often depend on personal experience, which may lead to significant gaps in the effectiveness of wetland systems in treating different characteristic contaminants. Therefore, it is of great significance to investigate the influence of substrates on the removal of contaminants in sewage and identify substrate materials with good physical and chemical properties to optimize the design and operation of CWs-based sewage-treatment systems and improve their purification efficiency. In this review, bibliometric analysis was conducted to using the Web of Science database and VOSviewer_1.6.20 software to assess the progress of research on CWs. This article provides a comprehensive overview of substrate types and characteristics based on recent research advancements in the field. Additionally, it discusses removal methods and the influence of factors related to conventional contaminants (COD, nitrogen, and phosphorus), heavy metals (HMs), fluorinated compounds, pharmaceuticals, personal care products (PPCPs), and microplastics. A thorough evaluation was conducted on the economic costs of various substrates and their ability to remove major contaminants from water bodies, providing a reference for the further development of wetland technology. [ABSTRACT FROM AUTHOR]

Published

2024

30. Recent progresses in thermal treatment of β-Ga2O3 single crystals and devices.

Author

Yan, Yuchao, Jin, Zhu, Zhang, Hui, and Yang, Deren

Abstract

In recent years, ultra-wide bandgap β-Ga2O3 has emerged as a fascinating semiconductor material due to its great potential in power and photoelectric devices. In semiconductor industrial, thermal treatment has been widely utilized as a convenient and effective approach for substrate property modulation and device fabrication. Thus, a thorough summary of β-Ga2O3 substrates and devices behaviors after high-temperature treatment should be significant. In this review, we present the recent advances in modulating properties of β-Ga2O3 substrates by thermal treatment, which include three major applications: (i) tuning surface electrical properties, (ii) modifying surface morphology, and (iii) oxidating films. Meanwhile, regulating electrical contacts and handling with radiation damage and ion implantation have also been discussed in device fabrication. In each category, universal annealing conditions were speculated to figure out the corresponding problems, and some unsolved questions were proposed clearly. This review could construct a systematic thermal treatment strategy for various purposes and applications of β-Ga2O3. [ABSTRACT FROM AUTHOR]

Published

2024

31. Quantifying the role of termite decomposition in a mesic savanna.

Author

Bunney, Katherine, Robertson, Mark, Eggleton, Paul, Twine, Wayne, and Parr, Catherine

Subjects

SAVANNAS, WOOD density, SOIL invertebrates, WOOD, CARBON cycle, SOIL microbiology

Abstract

Savanna systems are among the most sensitive to future climate and land‐use change, yet we lack robust, direct quantifications of savanna carbon cycling. Together with fire, decomposition is the main process by which the carbon and nutrients are recycled and made available again to plants. Decomposition is largely mediated by microbes and soil invertebrates. Using a novel large‐scale termite suppression experiment, we quantify, for the first time, the relative contribution of microbes, termites, and other invertebrates to the decomposition of wood (fresh native and dry non‐native), dry dung, and grass in a mesic savanna. We found that termites were responsible for two thirds of the mass loss from dry wood and a third of the mass loss from fresh native wood, dry dung, and dry grass. Microbes were wholly responsible for the difference as there was no evidence of other invertebrates contributing to decomposition, even with fresh wood. Using multiple substrates in savanna decomposition studies is important where a mixture of contrasting life forms occur because both the rates of decomposition and the dominant agent varied considerably. In addition, including both a dry non‐native and fresh native wood cast light on possible explanatory variables such as wood density, green‐ness and the presence of bark, and the necessity of teasing these variables apart in future studies. Termites stand apart from all other insects in their impact on decomposition within savannas and should be acknowledged alongside microbes and fire as the primary agents of wood, grass, and dry dung turnover in global carbon models. [ABSTRACT FROM AUTHOR]

Published

2024

32. Investigation of TiO2/PPy nanocomposite for photocatalytic applications; synthesis, characterization, and combination with various substrates: a review.

Author

Jamali Alyani, Sedigheh, Dadvand Koohi, Ahmad, Ashraf Talesh, S. Siamak, and Ebrahimian Pirbazari, Azadeh

Subjects

BIOCHEMICAL substrates, SUBSTRATES (Materials science), CLEAN energy, PHOTODEGRADATION, NANOCOMPOSITE materials, SOLAR cells

Abstract

The use of photocatalysis technology, specifically visible light photocatalysis that relies on sustainable solar energy, is the most promising for the degradation of contaminants. The interaction of conducting polymer and titanium dioxide (TiO2) leads to the exchange that enhances the alteration of the semiconductor's surface and subsequently decreases the bandgap energy. Polypyrrole (PPy) and TiO2 nanocomposites have promising potential for photocatalytic degradation. Chemically and electrochemical polymerization are two predominant methods for adding inorganic nanoparticles to a conducting polymer host matrix. The most commonly utilized method for producing PPy/TiO2 nanocomposites is the in-situ chemical oxidative polymerization technique. Immobilizing PPy/TiO2 on substrates causes more charge carriers (electron/hole pairs) to be produced on the surface of TiO2 and enhances the rate of photocatalytic degradation compared to pure TiO2. The increased surface charge affects how electron/hole pairs are formed when visible light is used. This study provides a comprehensive investigation into the synthesis, characterization, application, efficiency, and mechanism of PPy/TiO2 nanocomposites in the photocatalytic degradation process of various pollutants. Furthermore, the effect of stabilizing the TiO2/PPy nanocomposite on various substrates will be investigated. In conclusion, the review outlines the ongoing challenges in utilizing these photocatalysts and highlights the essential concerns that require attention in future research. Its objective is to help researchers better understand photocatalysts and encourage their use in wastewater treatment. [ABSTRACT FROM AUTHOR]

Published

2024

33. Recent development of substrates for immobilization of bimetallic nanoparticles for wastewater treatment: a review.

Author

Hamza, Ali, Ho, Kah Chun, and Chan, Mieow Kee

Subjects

SUBSTRATES (Materials science), WASTEWATER treatment, NANOPARTICLES, WASTE recycling

Abstract

Bimetallic nanoparticles (BMNPs) have gained considerable attention due to their remarkable catalytic properties, making them invaluable in wastewater treatment applications. One of these challenges lies in the propensity of BMNPs to aggregate due to Van der Waals interactions, which can reduce their overall performance. Additionally, retrieving exhausted NPs from the treated solution for subsequent reuse remains a significant hurdle. Moreover, the leaching of NPs into the discharged wastewater can have harmful effects on humans as well as aquatic life. To overcome these issues, various substrates have been researched to maximize the efficiency and stability of the NPs. This review paper delves into the pivotal role of various substrates in immobilizing BMNPs, providing a comprehensive analysis of their performances, advantages, and drawbacks. The substrates encompass a diverse range of materials, including organic, inorganic, organic-inorganic, beads, fibers, and membranes. Each substrate type offers unique attributes, influencing the stability, efficiency, and recyclability of BMNPs. This review paper aims to provide an up-to-date and detailed analysis and comparison of the substrates used for the immobilization of BMNPs. This work further reviews the underlying mechanisms of the composites involved in treating pollutants from wastewater and how these mechanisms are enhanced by the synergistic effects produced by the substrate and BMNPs. Furthermore, the reusability and sustainability of these composites are discussed. Also, high-performing substrates are highlighted to give direction to future research focusing on the immobilization of BMNPs in the application of wastewater treatment. [ABSTRACT FROM AUTHOR]

Published

2024

34. Transcriptome Analysis of Different Aquaculture Substrates on the Immune Response of Babylonia areolata.

Author

Zhang, Jiahua, Wang, Jie, Gu, Zhaojun, and Liu, Xingguo

Abstract

To assess the impact of different substrates in a recirculating water system on the immune response and antioxidant capacity of Babylonia areolata, we conducted a comparative analysis of the transcriptomes and antioxidant performance of the digestive glands in three substrate environments (sand—S group, ceramic granules—C group, and PVC breeding nest—P group). Transcriptome results revealed that the S group and P group exhibited the highest number of differentially expressed genes (DEGs), with a total of 2218 DEGs, including 928 upregulated and 1290 downregulated DEGs. The C group and P group had 1055 DEGs in common, with 316 upregulated and 739 downregulated DEGs. The C group and S group had the fewest DEGs, with 521 in total, including 303 upregulated and 218 downregulated DEGs. GO enrichment analysis showed that in the S vs P group, terms such as catalytic activity, membrane part, and cellular process were enriched with 287, 262, and 180 DEGs, respectively. In the C vs P group, binding, cellular process, and cell part were enriched with 146, 135, and 127 DEGs, respectively. In the C vs S group, catalytic activity, membrane part, and metabolic process were enriched with 90, 83, and 59 DEGs, respectively. Kegg enrichment analysis revealed significant changes in immune-related pathways in the S vs P group, including lysosome, phagosome, and leukocyte transendothelial migration, with 30, 13, and 10 enriched DEGs, respectively. In the C vs P group, phagosome, drug metabolism—other enzymes, and N-Glycan biosynthesis showed significant changes in immune-related pathways, with 9, 6, and 4 enriched DEGs, respectively. In the C vs S group, lysosome, PPAR signaling pathway, and fatty acid degradation exhibited significant changes in immune-related pathways, with 8, 4, and 3 enriched DEGs, respectively. Regarding antioxidant capacity, the S group showed significantly higher total T-AOC than the other experimental groups, while CAT, SOD, POD, and AKP were lower than in the C and P groups. The ACP level in the Sand group was not significantly different from the P group but significantly lower than the C group. In conclusion, substrate environments significantly influence the immune-related genes and key antioxidant enzyme activities in B. areolata. [ABSTRACT FROM AUTHOR]

Published

2024

35. The brazilian native orchid Brassavola tuberculata Hook.: ornamental potential and reintroduction

Author

Isabella Souza Riberio, Luan Marlon Ribeiro, Jéssica Celeste Mônico Ramos, Jackeline Schultz Soares, and José Carlos Sorgato

Subjects

landscaping, natural environment, Orchidaceae, substrates, Plant culture, SB1-1110

Abstract

The use of native species in landscaping has gained prominence due to their adaptability and sustainability compared to exotic species. To introduce a new plant into landscaping, it is necessary to define desirable ornamental characteristics. This study aimed to evaluate the ornamental potential and the feasibility of reintroducing the brazilian native orchid Brassavola tuberculata Hook. in natural environments, aiming for its use in sustainable landscaping with and without fertilization. The research was conducted in two main stages. In the first stage, the morphological characteristics of three individuals with floral buds were analyzed, focusing on quantitative aspects. The results showed that the species presents elegant inflorescences and fragrant flowers, with slightly yellowish white petals and a labellum articulated at the base. In the second stage, 20 plants originating from asymbiotic seeding, approximately 10 cm in height, were reintroduced into phorophytes of Hymenaea courbaril. A mixture of buriti palm fiber and coconut chips was used as the substrate. The plants were divided into two groups: one received 12 g of controlled-release fertilizer (NPK 15-15-15 + micronutrients) and the other received no fertilization. Evaluations were carried out on the day of reintroduction (day zero) and at 7, 14, 21, 30, 60, 90, 120, 180, and 360 days after reintroduction. The results indicate that the morphological aspects of B. tuberculata attribute ornamental potential to the species, and it can be successfully reintroduced into natural environments, even without fertilization. The plant demonstrated a remarkable ability to adapt and survive, reorganizing its metabolism to cope with initial stress.

Published

2024

36. Anaerobic Co-digestion of Cassava Peel Residue: A Review of Potential Co-substrates Pre-treatment and Operating Factors for Improved Methane Yield

Author

Asiedu, Zipporah Kyerewaa, Narra, Satyanarayana, Leal Filho, Walter, Series Editor, Narra, Mona-Maria, editor, and Narra, Satyanarayana, editor

Published

2024

37. Target/Probe Interactions

Author

Carrara, Sandro and Carrara, Sandro

Published

2024

38. Growing Vigorous Potato Seedlings in Plug Trays

Author

Kacheyo, Olivia C., Schneider, Hannah M., de Vries, Michiel E., and Struik, Paul C.

Published

2024

39. Research on Parylene-C application to wearable organic electronics: in the respect of substrate type

Author

Hou, Benliang, Lee, Yea Eun, Kim, Do Hyeon, Ye, Heqing, Kwon, Hyeok-jin, and Kim, Se Hyun

Published

2024

40. Identification of mitogen-activated protein kinases substrates in Arabidopsis using kinase client assay

Author

Sunghwa Bahk, Nagib Ahsan, Jonguk An, Sun Ho Kim, Zakiyah Ramadany, Jong Chan Hong, Jay J. Thelen, and Woo Sik Chung

Subjects

mpks, phosphorylation, substrates, signaling, Plant ecology, QK900-989, Biology (General), QH301-705.5

Abstract

Mitogen-activated protein kinase (MPK) cascades are essential signal transduction components that control a variety of cellular responses in all eukaryotes. MPKs convert extracellular stimuli into cellular responses by the phosphorylation of downstream substrates. Although MPK cascades are predicted to be very complex, only limited numbers of MPK substrates have been identified in plants. Here, we used the kinase client (KiC) assay to identify novel substrates of MPK3 and MPK6. Recombinant MPK3 or MPK6 were tested against a large synthetic peptide library representing in vivo phosphorylation sites, and phosphorylated peptides were identified by high-resolution tandem mass spectrometry. From this screen, we identified 23 and 21 putative client peptides of MPK3 and MPK6, respectively. To verify the phosphorylation of putative client peptides, we performed in vitro kinase assay with recombinant fusion proteins of isolated client peptides. We found that 13 and 9 recombinant proteins were phosphorylated by MPK3 and MPK6. Among them, 11 proteins were proven to be the novel substrates of two MPKs. This study suggests that the KiC assay is a useful method to identify new substrates of MPKs.

Published

2024

41. Fabrication of the Highly Ordered Silicon Nanocone Array With Sub-5 nm Tip Apex by Tapered Silicon Oxide Mask.

Author

Pan, Aixi, Zhu, Chenxu, Yan, Zheng, Zhu, Xiaoli, Liu, Zhongyi, and Cui, Bo

Subjects

*SILICON oxide, *ELECTRON beam lithography, *SULFUR hexafluoride, *SILICA, *SILICON

Abstract

In view of the wide range of applications for ultra-sharp silicon (Si) nanocones, extensive research has been conducted on their fabrication processes. However, these conventional methods pose challenges in terms of achieving uniformity, controllability, and cost-efficiency. This study presents a novel approach to fabricating Si nanocone structures through reactive ion etching (RIE) using a tapered silicon dioxide mask, followed by thermal oxidation sharpening to reduce the apex diameter to 4 nm. Here the tapered SiO2 mask with a smooth sidewall was created through a combination of RIE and a buffered oxide etchant (BOE) etching. The lithography of the oxide mask is achieved using a cost-effective (compared to electron beam lithography) maskless aligner system (MLA). Subsequently, a non-switching pseudo-Bosch process, employing sulfur hexafluoride (SF6) gas and octafluorocyclobutane (C4F8) gas, is utilized for the etching the Si nanocone structures, resulting in an average apex diameter of 30 nm. Finally, thermal oxidation followed by oxide removal further sharpens these cones to 4 nm. [ABSTRACT FROM AUTHOR]

Published

2024

42. Pioneering Fast and Safe Low-k Silicon Dioxide Synthesis for Modern Integrated Circuits.

Author

Chow, Yu-Ting, Chao, Shou-Yen, Jiang, Pei-Cheng, Chang, Chung-Tzu, Zheng, Mei-Yuan, Wang, Mu-Chun, Chang, Cheng-Hsun-Tony, Lin, Chii-Ruey, Chen, Chia-Fu, and Liu, Kuo-Wei

Subjects

*SILICA, *INTEGRATED circuits, *PERMITTIVITY, *DIELECTRIC films, *THICKNESS measurement

Abstract

With the advent of the highly developed era of 5G, AI, and IoT, the latest generation of ICs is designed with smaller-sized FETs, lower time delays, and reduced power consumption. To address the challenges posed by these advancements, materials with a lower k value than silicon dioxide (low-k, <4.0) are being developed to reduce resistance-capacitance (RC) time delays and power consumption. While low-k materials are still emerging, various material companies continue to introduce innovative low-k products, such as SiLK, Fox, Coral, and Aurora from different companies. Simultaneously, considering proprietary business interests, the processes and materials associated with these products have not been clearly presented. In this report, we employ a novel set of equipment to validate an innovative formulation for synthesizing a low-k silicon dioxide layer. Thickness measurements confirm a higher deposition rate of silicon dioxide layers, with excellent uniformity observed on 8” wafer. Furthermore, the dielectric constant (k) decreases to 2.35, indicating the production of a great low-k material. Additionally, in the formulation of reactants, we avoid the use of silane and organic silane, contributing to improved safety in the facility and effective control of reactant costs. The results highlight an advantageous option for fabricating interconnect layers in ICs. [ABSTRACT FROM AUTHOR]

Published

2024

43. Correction of substrate-induced thin-film modulus deviations in nanoindentation measurements.

Author

Lee, Ching-Yin, Tsai, Yi-Chia, Lin, Su-Jien, and Yeh, Jien-Wei

Subjects

*ELASTIC deformation, *ALUMINUM oxide, *NANOINDENTATION, *THIN films, *CERAMIC materials, *MEASUREMENT errors

Abstract

The influence of substrate effects on the accurate measurement of mechanical properties of thin films remains to be clarified. Therefore, in this study, (AlCrNbSiTi)N thin films were deposited on four substrates—Si, SiO 2 , sapphire (Al 2 O 3), and Ni—with varying thicknesses. Nanoindentation testing was conducted to measure the mechanical properties, revealing variations in the modulus of the thin film depending on the substrate and film thickness. To address these variations, we introduced the concept of two springs connected in series, following Hooke's law, to determine the elastic deformations of the thin film and its underlying substrate. By applying linear regression to four datasets corresponding to equivalent film thicknesses but different substrates, substrate-induced measurement errors were effectively mitigated, and the true modulus of the thin film was determined. Furthermore, we introduced a k value to represent the ratio of the actual force on the substrate to the force exerted by the indenter. Our findings indicate that even when the indenter contact depth is less than 1% of the film thickness, the substrate is still subjected to 7.6% of the applied force. This underscores the non-negligible nature of substrate elastic deformation during the measurement process and importance of correcting for substrate-induced variations in thin-film moduli. The findings can contribute to advancing the understanding of mechanical properties in ceramics and related materials. [ABSTRACT FROM AUTHOR]

Published

2024

44. Insights on advanced substrates for controllable fabrication of photoanodes toward efficient and stable photoelectrochemical water splitting.

Author

Hou, Huilin, Shao, Gang, Wang, Yang, Wong, Wai‐Yeung, and Yang, Weiyou

Subjects

PHOTOCATHODES, ENERGY conversion, ENERGY shortages, SILICON carbide, METALS, SAPPHIRES, DYE-sensitized solar cells

Abstract

Conversion of solar energy into H2 by photoelectrochemical (PEC) water splitting is recognized as an ideal way to address the growing energy crisis and environmental issues. In a typical PEC cell, the construction of photoanodes is crucial to guarantee the high efficiency and stability of PEC reactions, which fundamentally rely on rationally designed semiconductors (as the active materials) and substrates (as the current collectors). In this review work, we start with a brief introduction of the roles of substrates in the PEC process. Then, we provide a systematic overview of representative strategies for the controlled fabrication of photoanodes on rationally designed substrates, including conductive glass, metal, sapphire, silicon, silicon carbide, and flexible substrates. Finally, some prospects concerning the challenges and research directions in this area are proposed. [ABSTRACT FROM AUTHOR]

Published

2024

45. The effects of MS2 (M = Mo or W) substrates on electronic properties under electric fields in germanene-based field-effect transistors.

Author

Xiao, M X, Lin, H Y, Liu, H, Song, H Y, Wang, S D, and Xiao, B B

Subjects

*ELECTRIC properties, *ELECTRIC fields, *FIELD-effect transistors, *BAND gaps, *ATOMIC structure, *CHARGE carrier mobility

Abstract

Germanene has attracted significant attention due to its novel electronic properties and strong spin-coupling effect. However, the tiny band gap of the germanene dramatically limits its application in field-effect transistors (FETs). Inspired by the utilization of the substrates and electric fields to adjust the band gaps of two-dimensional materials, we investigated the fundamental mechanism of electric fields on the atomic structures and electronic properties of germanene supported by MS2 (M = Mo or W) substrates through first-principles calculation. The results show that the substrates can induce a symmetry breaking in the germanene sublattice via van der Waals interaction, leading to a sizable band gap at the Dirac point. In addition, the band gaps of the germanene/MS2 heterostructures can be effectively modulated by applying an external electric field. Under suitable electric fields, the considerable band gap values of CMo germanene/MoS2 and TGeL-W germanene/WS2 configurations can open the maximum band gaps with 263 and 247 meV, which satisfy the requirements of FETs at room temperature. Meanwhile, the evolutions of charge transfers under electric fields were explored to illustrate how electric fields and substrates promote the electronic properties of germanene. More interestingly, a Schottky–Ohmic transition can occur when a specific electric field is imposed on the germanene/MS2 heterostructures. Note that the hole and electron carrier mobilities of germanene/MS2 heterostructures are still significantly preserved, showing some superior electronic performances than some heterostructures. The results provide a critical theoretical guide for improving the electronic properties of germanene, and demonstrate the designed germanene/MS2 heterostructures with the tunable band gaps and higher carrier mobilities as germanene-based FETs. [ABSTRACT FROM AUTHOR]

Published

2024

46. Modeling of Magnetic Films: A Scientific Perspective.

Author

Misiurev, Denis and Holcman, Vladimír

Subjects

*MAGNETIC films, *SCIENTIFIC method, *MONTE Carlo method, *MOLECULAR dynamics, *MATERIALS science

Abstract

Magnetic thin-film modeling stands as a dynamic nexus of scientific inquiry and technological advancement, poised at the vanguard of materials science exploration. Leveraging a diverse suite of computational methodologies, including Monte Carlo simulations and molecular dynamics, researchers meticulously dissect the intricate interplay governing magnetism and thin-film growth across heterogeneous substrates. Recent strides, notably in multiscale modeling and machine learning paradigms, have engendered a paradigm shift in predictive capabilities, facilitating a nuanced understanding of thin-film dynamics spanning disparate spatiotemporal regimes. This interdisciplinary synergy, complemented by avantgarde experimental modalities such as in situ microscopy, promises a tapestry of transformative advancements in magnetic materials with far-reaching implications across multifaceted domains including magnetic data storage, spintronics, and magnetic sensing technologies. The confluence of computational modeling and experimental validation heralds a new era of scientific rigor, affording unparalleled insights into the real-time dynamics of magnetic films and bolstering the fidelity of predictive models. As researchers chart an ambitiously uncharted trajectory, the burgeoning realm of magnetic thin-film modeling burgeons with promise, poised to unlock novel paradigms in materials science and engineering. Through this intricate nexus of theoretical elucidation and empirical validation, magnetic thin-film modeling heralds a future replete with innovation, catalyzing a renaissance in technological possibilities across diverse industrial landscapes. [ABSTRACT FROM AUTHOR]

Published

2024

47. Extracted Eucalyptus globulus Bark Fiber as a Potential Substrate for Pinus radiata and Quillaja saponaria Germination.

Author

Ferrer-Villasmil, Víctor, Fuentealba, Cecilia, Reyes-Contreras, Pablo, Rubilar, Rafael, Cabrera-Barjas, Gustavo, Bravo-Arrepol, Gastón, and Escobar-Avello, Danilo

Subjects

EUCALYPTUS globulus, PINUS radiata, GERMINATION, CIRCULAR economy, FIBERS, EUCALYPTUS

Abstract

This study aimed to explore alternative substrates for growing forest species using eucalyptus bark. It evaluated the potential of extracted Eucalyptus globulus fiber bark as a substitute for commercial growing media such as coconut fiber, moss, peat, and compost pine. We determined the physicochemical parameters of the growing media, the germination rate, and the mean fresh and dry weights of seedlings. We used the Munoo-Liisa Vitality Index (MLVI) test to evaluate the phytotoxicity of the bark alone and when mixed with commercial substrates. Generally, the best mixture for seed growth was 75% extracted eucalyptus bark fiber and 25% commercial substrates. In particular, the 75E-25P (peat) mixture is a promising substitute for seedling growth of Pinus radiata, achieving up to 3-times higher MLVI than the control peat alone. For Quillaja saponaria, the best growth substrate was the 50E-50C (coconut fiber) mixture, which had the most significant MLVI values (127%). We added chitosan and alginate-encapsulated fulvic acid phytostimulants to improve the performance of the substrate mixtures. The fulvic acid, encapsulated or not, significantly improved MLVI values in Q. saponaria species and P. radiata in concentrations between 0.05 and 0.1% w/v. This study suggests that mixtures with higher levels of extracted fiber are suitable for growing forest species, thus promoting the application of circular economy principles in forestry. [ABSTRACT FROM AUTHOR]

Published

2024

48. Prior acute exercise restores postprandial fat oxidation in active cannabis users.

Author

Schubert, Matthew M., Terauds, Samantha, Plant, Maren, Handler, Grace, Atkins, Colin, and Mendez, Casandra

Subjects

*ANAEROBIC threshold, *LIPID metabolism, *FAT, *BLOOD lipids, *OXIDATION

Abstract

Data suggest cannabis users have similar or lower levels of blood lipids compared to nonusers. However, the extent to which cannabis users experience postprandial lipemia is not known. Eleven cannabis users and 11 nonusers completed either rest or 1 h of exercise at their ventilatory threshold the evening before a meal tolerance test (MTT). Substrate oxidation, blood pressure, and capillary blood were obtained before and every 30-60 min post-meal for 3 h. Linear mixed models were utilized to examine differences in variables between groups, conditions, across time, and their interactions. Exercise led to increased fat oxidation post-MTT (p < 0.05), with cannabis users exhibiting higher AUC compared to the control trial (p < 0.05). Exercise also caused significantly lower levels of triglycerides (p < 0.05). Metabolic flexibility was improved in cannabis users in the exercise trial only (p < 0.05). No effect of group, trial, or interactions were detected for other variables of interest (all p > 0.05). This study indicated that prior exercise improves lipid metabolism in cannabis users and nonusers after a high-fat meal test. Cannabis users appear sensitive to the effects of exercise. Future studies should incorporate additional meals and variables related to cardiovascular health and metabolism. [ABSTRACT FROM AUTHOR]

Published

2024

49. Thermal conductivity prediction of sintered reaction bonded silicon nitride ceramics using a machine learning approach based on process conditions.

Author

Furushima, Ryoichi, Nakashima, Yuki, Zhou, You, Hirao, Kiyoshi, Ohji, Tatsuki, and Fukushima, Manabu

Subjects

*THERMAL conductivity, *SILICON nitride, *MACHINE learning, *CERAMICS, *GAS phase reactions, *NITRIDING

Abstract

Thermal conductivity (TC) of sintered reaction bonded silicon nitride (SRBSN) ceramics was predicted from process conditions using support vector regression (SVR) as a machine learning algorithm. A total of ten explanatory variables were selected from the process conditions for building a SVR model. The determination coefficient (R 2 ) in the testing results of the trained SVR model reached a satisfactory level (R 2 = 0.8 on average) when more than 100 data points were used as the training data. The relative importance scores of the explanatory variables revealed that sintering conditions (temperature and time) had the largest contribution to the TC prediction while those of oxygen impurity content in the main starting powder, types and concentrations of sintering additives and nitriding conditions were also influential to a certain extent. [ABSTRACT FROM AUTHOR]

Published

2024

50. 表面增强拉曼光谱技术在农药残留检测中的 应用研究进展.

Author

王良壮, 李东建, 司承运, 杜迎翔, and 骆雪芳

Abstract

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Published

2024