Bibliothèque de L'institut de Technologie UAMO BOUIRA
Détail de l'éditeur
WILEY -VCH
localisé à :
Weinheim
|
available document(s) from this publisher (17)
Affiner la recherche Interroger des sources externes
title : SILICON Electrochemistry, Production, Purification and Applications Type de document : printed text Auteur : Eimutis JUZELIUNAS, Author Editeur : Weinheim [GERMANY] : WILEY -VCH Date de publication : 2023 ISBN (ou autre code) : 978-3-527-34897-8 Langue : English (eng) Mots clé : physical and chemical properties of silicon Indexation : 546.674 Résumé : The expert reference on sustainable and energy-efficient production of photovoltaic-grade silicon materials
Electrochemical methods, in particular molten-salt approaches, are a cost-effective, energy-efficient, and highly sustainable approach for producing solar-grade silicon. Surface micro- and nanostructuring methods for effective light harvesting, silicon electrorefining in molten salts, electrodeposition of photoresponsive films, and other related processes are likely to replace conventional carbothermic production methods.
Silicon: Electrochemistry, Production, Purification and Applications presents an up-to-date summary of recent experimental and technological developments in the field, highlighting sustainable and energy-efficient processes for high-grade silicon production for a variety of photovoltaic and energy applications. Presented in a logical and concise format, this authoritative volume details the fundamental properties and technical processes of metal-grade silicon production and describes the various electrochemical methods for high-grade silicon production. Topics include silicon surface modification, chemical-physical structuring, porous and black silicon, electrochemical Si surface structuring and anodizing in molten salts, and more.
Reviews the sustainable and energy-efficient production and purification of photovoltaic-grade silicon materials
Summarizes recent progress in sustainable processes for high-grade silicon production
Describes electrochemical methods for silicon production such as electrolysis, electrodeposition, and electrorefining
Concludes with a discussion of future challenges and opportunities
Written by a leading researcher in the field, Silicon: Electrochemistry, Production, Purification and Applications is a valuable resource for chemists and material scientists in academia and industry, particularly those working in sustainable energy development, photovoltaics, light harvesting efficiency, solar-to-chemical conversion, and production of solar-grade silicon, batteries, photoelectrodes, or silicon-based semiconductors.
About the Author
Eimutis Juzeliūnas is Principal Research Associate and Head of the Department of Electrochemical Materials Science at the Centre for Physical Sciences and Technology in Vilnius, Lithuania. From 2009 to 2014, he was a Marie Curie Fellow at the University of Cambridge, UK. He has published more than 100 papers in peer-reviewed journals, holds two patents, and has presented his research at 40 international conferences. He has received research fellowships from the Alexander von Humboldt Foundation, the American Chemical Society, the Fulbright Programme, and the European Commission.SILICON Electrochemistry, Production, Purification and Applications [printed text] / Eimutis JUZELIUNAS, Author . - Weinheim [GERMANY] : WILEY -VCH, 2023.
ISBN : 978-3-527-34897-8
Langue : English (eng)
Mots clé : physical and chemical properties of silicon Indexation : 546.674 Résumé : The expert reference on sustainable and energy-efficient production of photovoltaic-grade silicon materials
Electrochemical methods, in particular molten-salt approaches, are a cost-effective, energy-efficient, and highly sustainable approach for producing solar-grade silicon. Surface micro- and nanostructuring methods for effective light harvesting, silicon electrorefining in molten salts, electrodeposition of photoresponsive films, and other related processes are likely to replace conventional carbothermic production methods.
Silicon: Electrochemistry, Production, Purification and Applications presents an up-to-date summary of recent experimental and technological developments in the field, highlighting sustainable and energy-efficient processes for high-grade silicon production for a variety of photovoltaic and energy applications. Presented in a logical and concise format, this authoritative volume details the fundamental properties and technical processes of metal-grade silicon production and describes the various electrochemical methods for high-grade silicon production. Topics include silicon surface modification, chemical-physical structuring, porous and black silicon, electrochemical Si surface structuring and anodizing in molten salts, and more.
Reviews the sustainable and energy-efficient production and purification of photovoltaic-grade silicon materials
Summarizes recent progress in sustainable processes for high-grade silicon production
Describes electrochemical methods for silicon production such as electrolysis, electrodeposition, and electrorefining
Concludes with a discussion of future challenges and opportunities
Written by a leading researcher in the field, Silicon: Electrochemistry, Production, Purification and Applications is a valuable resource for chemists and material scientists in academia and industry, particularly those working in sustainable energy development, photovoltaics, light harvesting efficiency, solar-to-chemical conversion, and production of solar-grade silicon, batteries, photoelectrodes, or silicon-based semiconductors.
About the Author
Eimutis Juzeliūnas is Principal Research Associate and Head of the Department of Electrochemical Materials Science at the Centre for Physical Sciences and Technology in Vilnius, Lithuania. From 2009 to 2014, he was a Marie Curie Fellow at the University of Cambridge, UK. He has published more than 100 papers in peer-reviewed journals, holds two patents, and has presented his research at 40 international conferences. He has received research fellowships from the Alexander von Humboldt Foundation, the American Chemical Society, the Fulbright Programme, and the European Commission.Exemplaires
Barcode Call number Media type Location Section Statut aucun exemplaire
title : Scent and Chemistry : The Molecular Word of Odors Type de document : printed text Auteur : Gunter OHLOFF, Author ; Wilhelm PICKENHAGEN, Author Editeur : Weinheim [GERMANY] : WILEY -VCH Date de publication : 2022 ISBN (ou autre code) : 978-3-527-34855-8 Langue : English (eng) Mots clé : the chemical aspects Indexation : 547.047 Résumé : Odor impressions have cast a spell over mankind since the dim and distant past. But even today, we are –consciously or subconsciously– guided by our sense of smell and the chemistry behind it. The prominent fragrance chemists Günther Ohloff, Wilhelm Pickenhagen and Philip Kraft convey the scientist, the perfumer, and the interested layman with a vivid and up-to-date picture of the chemistry of odorants and the research in odor perception. In this second thoroughly revised and updated edition they are joined by creative perfumer Fanny Grau, a rising master in this métier, who complements the scientific treatise by a concise introduction to the art of perfumery and its composition techniques.
Besides this new chapter on the creative aspects of perfumery, the book details on the molecular basis of olfaction, olfactory characterization of perfumery materials, structure–odor relationships, the chemical synthesis of odorants, and the chemistry of essential oils and odorants from the animal kingdom, backed up by many perfume examples and historical aspects. It will serve as a thorough introductory text for everyone interested in the molecular world of odors.Scent and Chemistry : The Molecular Word of Odors [printed text] / Gunter OHLOFF, Author ; Wilhelm PICKENHAGEN, Author . - Weinheim [GERMANY] : WILEY -VCH, 2022.
ISBN : 978-3-527-34855-8
Langue : English (eng)
Mots clé : the chemical aspects Indexation : 547.047 Résumé : Odor impressions have cast a spell over mankind since the dim and distant past. But even today, we are –consciously or subconsciously– guided by our sense of smell and the chemistry behind it. The prominent fragrance chemists Günther Ohloff, Wilhelm Pickenhagen and Philip Kraft convey the scientist, the perfumer, and the interested layman with a vivid and up-to-date picture of the chemistry of odorants and the research in odor perception. In this second thoroughly revised and updated edition they are joined by creative perfumer Fanny Grau, a rising master in this métier, who complements the scientific treatise by a concise introduction to the art of perfumery and its composition techniques.
Besides this new chapter on the creative aspects of perfumery, the book details on the molecular basis of olfaction, olfactory characterization of perfumery materials, structure–odor relationships, the chemical synthesis of odorants, and the chemistry of essential oils and odorants from the animal kingdom, backed up by many perfume examples and historical aspects. It will serve as a thorough introductory text for everyone interested in the molecular world of odors.Exemplaires
Barcode Call number Media type Location Section Statut aucun exemplaire
title : Reaction Mechanisms in Organic Chemistry Type de document : printed text Auteur : Metin BALCI, Author Editeur : Weinheim [GERMANY] : WILEY -VCH Date de publication : 2022 ISBN (ou autre code) : 978-3-527-34964-7 Langue : English (eng) Mots clé : types of chemical reactions Indexation : 547.2 Résumé : An accessible and step-by-step exploration of organic reaction mechanisms
In Reaction Mechanisms in Organic Chemistry, eminent researcher Dr. Metin Balcı explains organic reaction mechanisms step-by-step. The book offers a way for undergraduate and graduate students to understand―rather than memorize―the principles of reaction mechanisms. It includes the most important reaction types, including substitution, elimination, addition, pericyclic, and C-C coupling reactions.
Each chapter contains problems and accompanying solutions that cover central concepts in organic chemistry. Students will learn to understand the foundational nature of ideas like Lewis acids and bases, electron density, the mesomeric effect, and the inductive effect via the use of detailed examples and an expansive discussion of the concept of hybridization.
Along with sections covering aromaticity and the chemistry of intermediates, the book includes:
A thorough introduction to basic concepts in organic reactions, including covalent bonding, hybridization, electrophiles and nucleophiles, and inductive and mesomeric effects
Comprehensive explorations of nucleophilic substitution reactions, including optical activity and stereochemistry of SN2 reactions
Practical discussions of elimination reactions, including halogene elimination and Hofmann elimination
In-depth examinations of addition reactions, including the addition of water to alkenes and the epoxidation of alkenes
Perfect for students of chemistry, biochemistry, and pharmacy, Reaction Mechanisms in Organic Chemistry will also earn a place in the libraries of researchers and lecturers in these fields seeking a one-stop resource on organic reaction mechanisms.Reaction Mechanisms in Organic Chemistry [printed text] / Metin BALCI, Author . - Weinheim [GERMANY] : WILEY -VCH, 2022.
ISBN : 978-3-527-34964-7
Langue : English (eng)
Mots clé : types of chemical reactions Indexation : 547.2 Résumé : An accessible and step-by-step exploration of organic reaction mechanisms
In Reaction Mechanisms in Organic Chemistry, eminent researcher Dr. Metin Balcı explains organic reaction mechanisms step-by-step. The book offers a way for undergraduate and graduate students to understand―rather than memorize―the principles of reaction mechanisms. It includes the most important reaction types, including substitution, elimination, addition, pericyclic, and C-C coupling reactions.
Each chapter contains problems and accompanying solutions that cover central concepts in organic chemistry. Students will learn to understand the foundational nature of ideas like Lewis acids and bases, electron density, the mesomeric effect, and the inductive effect via the use of detailed examples and an expansive discussion of the concept of hybridization.
Along with sections covering aromaticity and the chemistry of intermediates, the book includes:
A thorough introduction to basic concepts in organic reactions, including covalent bonding, hybridization, electrophiles and nucleophiles, and inductive and mesomeric effects
Comprehensive explorations of nucleophilic substitution reactions, including optical activity and stereochemistry of SN2 reactions
Practical discussions of elimination reactions, including halogene elimination and Hofmann elimination
In-depth examinations of addition reactions, including the addition of water to alkenes and the epoxidation of alkenes
Perfect for students of chemistry, biochemistry, and pharmacy, Reaction Mechanisms in Organic Chemistry will also earn a place in the libraries of researchers and lecturers in these fields seeking a one-stop resource on organic reaction mechanisms.Exemplaires
Barcode Call number Media type Location Section Statut aucun exemplaire
title : Functional Polymers for Metal-ion Batteries Type de document : printed text Auteur : Shanqing ZHANG, Author ; Jun LU, Author Editeur : Weinheim [GERMANY] : WILEY -VCH Date de publication : 2023 ISBN (ou autre code) : 978-3-527-35068-1 Langue : English (eng) Mots clé : morphological engineering of PEMs Indexation : 547.7 Résumé : Unique and useful book covering fundamental knowledge and practical applications of polymer materials in energy storage systems
In Functional Polymers for Metal-Ion Batteries, the recent development and achievements of polymer-based materials are comprehensively analyzed in four directions, including electrode materials, binders, separators, and solid electrolytes, highlighting the working mechanisms, classification, design strategies, and practical applications of these polymer materials in mental-ion batteries.
Specific sample topics covered in Functional Polymers for Metal-Ion Batteries include:
Prominent advantages of various solid-state electrolytes, such as low flammability, easy processability, more tolerance to vibration, shock, and mechanical deformation
Why and how functional polymers present opportunities to maximize energy density and pursue the sustainability of the battery industry
How the application of functional polymers in metal-ion batteries helps enhance the high energy density of energy storage devices and reduce carbon footprint during production
How development of functional separators could significantly lower the cost of battery manufacturing
Providing a comprehensive understanding of the role of polymers in the whole configuration of metal-ion batteries from electrodes to electrolytes, Functional Polymers for Metal-Ion Batteries is an ideal resource for materials scientists, electrochemists, and polymer, solid state, and physical chemists who wish to understand the latest developments of this technology.Functional Polymers for Metal-ion Batteries [printed text] / Shanqing ZHANG, Author ; Jun LU, Author . - Weinheim [GERMANY] : WILEY -VCH, 2023.
ISBN : 978-3-527-35068-1
Langue : English (eng)
Mots clé : morphological engineering of PEMs Indexation : 547.7 Résumé : Unique and useful book covering fundamental knowledge and practical applications of polymer materials in energy storage systems
In Functional Polymers for Metal-Ion Batteries, the recent development and achievements of polymer-based materials are comprehensively analyzed in four directions, including electrode materials, binders, separators, and solid electrolytes, highlighting the working mechanisms, classification, design strategies, and practical applications of these polymer materials in mental-ion batteries.
Specific sample topics covered in Functional Polymers for Metal-Ion Batteries include:
Prominent advantages of various solid-state electrolytes, such as low flammability, easy processability, more tolerance to vibration, shock, and mechanical deformation
Why and how functional polymers present opportunities to maximize energy density and pursue the sustainability of the battery industry
How the application of functional polymers in metal-ion batteries helps enhance the high energy density of energy storage devices and reduce carbon footprint during production
How development of functional separators could significantly lower the cost of battery manufacturing
Providing a comprehensive understanding of the role of polymers in the whole configuration of metal-ion batteries from electrodes to electrolytes, Functional Polymers for Metal-Ion Batteries is an ideal resource for materials scientists, electrochemists, and polymer, solid state, and physical chemists who wish to understand the latest developments of this technology.Exemplaires
Barcode Call number Media type Location Section Statut aucun exemplaire
title : Principles of Biomedical Sciences and Industry : Translating Ideas into Treatments Type de document : printed text Auteur : Markus HINDER, Author ; Alexander SCHUHMACHER, Author Editeur : Weinheim [GERMANY] : WILEY -VCH Date de publication : 2022 ISBN (ou autre code) : 978-3-527-34571-7 Langue : English (eng) Mots clé : biomakers:definitions and utility for drug development Indexation : 610.28 Résumé : Principles of Biomedical Sciences and Industry
Improve your product development skills to bring new ideas to biomedicine
The development of innovative healthcare products, such as biodegradable implants, biopharmaceuticals, or companion diagnostics, requires a multi-disciplinary approach that incorporates scientific evidence with novel and innovative ideas to create new and improved products and treatments. Indeed, product development and the integration of science with commercial aspects have become key challenges for scientists working in the pharmaceutical, biotech, and medtech industries.
Using a multi-pronged approach to development, Principles of Biomedical Sciences and Industry combines ideas and methodologies from four of the central areas of focus in the biomedical arena: pharmaceuticals, diagnostics, biomaterials, and medical devices. In doing so, the book covers the entire product lifecycle, from translating a scientific idea into a prototype to product development, launch, and management.
Principles of Biomedical Sciences and Industry readers will also find:
Several case studies from the most important product categories (pharmaceuticals, diagnostics, medical devices, combination products)
Chapters dealing with toxicology and safety risks in development, as well as regulatory approval
Key business aspects including how to secure funding, managing intellectual property, and price regulation in the market
An ideal resource for teachers and students that conveys the information in an easily-digestible format
Ideal for advanced students and young professionals pursuing a career in the biomedical and healthcare industries, Principles of Biomedical Sciences and Industry is an essential reference for those in pharmaceutical industry, biotechnologists, medicinal chemists, bio-engineers, pharma engineers, and management consultants.Principles of Biomedical Sciences and Industry : Translating Ideas into Treatments [printed text] / Markus HINDER, Author ; Alexander SCHUHMACHER, Author . - Weinheim [GERMANY] : WILEY -VCH, 2022.
ISBN : 978-3-527-34571-7
Langue : English (eng)
Mots clé : biomakers:definitions and utility for drug development Indexation : 610.28 Résumé : Principles of Biomedical Sciences and Industry
Improve your product development skills to bring new ideas to biomedicine
The development of innovative healthcare products, such as biodegradable implants, biopharmaceuticals, or companion diagnostics, requires a multi-disciplinary approach that incorporates scientific evidence with novel and innovative ideas to create new and improved products and treatments. Indeed, product development and the integration of science with commercial aspects have become key challenges for scientists working in the pharmaceutical, biotech, and medtech industries.
Using a multi-pronged approach to development, Principles of Biomedical Sciences and Industry combines ideas and methodologies from four of the central areas of focus in the biomedical arena: pharmaceuticals, diagnostics, biomaterials, and medical devices. In doing so, the book covers the entire product lifecycle, from translating a scientific idea into a prototype to product development, launch, and management.
Principles of Biomedical Sciences and Industry readers will also find:
Several case studies from the most important product categories (pharmaceuticals, diagnostics, medical devices, combination products)
Chapters dealing with toxicology and safety risks in development, as well as regulatory approval
Key business aspects including how to secure funding, managing intellectual property, and price regulation in the market
An ideal resource for teachers and students that conveys the information in an easily-digestible format
Ideal for advanced students and young professionals pursuing a career in the biomedical and healthcare industries, Principles of Biomedical Sciences and Industry is an essential reference for those in pharmaceutical industry, biotechnologists, medicinal chemists, bio-engineers, pharma engineers, and management consultants.Exemplaires
Barcode Call number Media type Location Section Statut aucun exemplaire PermalinkPermalinkPermalinkPermalinkPermalinkPermalinkPermalinkPermalinkPermalinkPermalink
