Nanostructured Materials for Visible Light Photocatalysis
Nanostructured Materials for Visible Light Photocatalysis describes the various methods of synthesizing different classes of nanostructured materials that are used as photocatalysts for the degradation of organic hazardous dyes under visible light irradiation. The first three chapters include a gene...
Ausführliche Beschreibung
Autor*in: |
Nayak, Arpan Kumar [herausgeberIn] Sahu, Niroj Kumar [herausgeberIn] |
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Format: |
E-Book |
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Sprache: |
Englisch |
Erschienen: |
Amsterdam, Netherlands Oxford, United Kingdom Cambridge, MA: Elsevier ; 2022 |
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Schlagwörter: |
Nanostructured materials, Optical properties |
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Anmerkung: |
2.1.12. Sonochemical method |
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Umfang: |
1 Online-Ressource (638 pages) |
Reihe: |
Micro and Nano Technologies |
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Links: | |
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ISBN: |
0-12-823050-9 978-0-12-823018-3 0-12-823018-5 978-0-12-823050-3 |
Katalog-ID: |
1876381639 |
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505 | 8 | 0 | |a Intro -- Nanostructured Materials for Visible Light Photocatalysis -- Copyright -- Contents -- Contributors -- Chapter 1: Fundamentals principle of photocatalysis -- 1. Introduction -- 2. Basic principle for photocatalytic reactions -- 2.1. Direct photocatalytic principle -- 2.2. Indirect photocatalytic principle -- 3. Reaction pathways for photogenerated electron-hole pair -- 3.1. Pathways of PEHP within a semiconducting catalyst -- 3.2. Charge carrier trapping -- 4. Fundamental principles based on the type of catalyst -- 4.1. Semiconductor-based photocatalyst |
505 | 8 | 0 | |a 4.2. Quantum dot-based photocatalyst -- 4.3. Two-dimensional material-based photocatalyst -- 5. Factors affecting the photocatalysis reaction -- 5.1. Effect of quantity of catalyst -- 5.2. Effect of wavelength and intensity of light -- 5.3. Effect of pH -- 5.4. Effect of the initial concentration of dye -- 5.5. Effect of temperature -- 5.6. Effect of additives -- 5.7. Quantum size effects -- 5.8. Effect of other parameters on the photoactivity of catalyst -- 6. Strategies for enhancement of photocatalytic properties of semiconducting materials |
505 | 8 | 0 | |a 6.1. Semiconductor-semiconductor heterojunction (Sc-Sc H) -- 6.2. Semiconductor-metal heterojunction (Sc-M H) -- 6.3. Semiconductor-carbon heterojunction (Sc-C H) -- 6.4. Multicomponent heterojunction (McH) -- 7. Conclusion -- References -- Chapter 2: Nanomaterials aspects for photocatalysis -- 1. Introduction to nanomaterials and photocatalysis -- 2. Mechanism of photocatalysis -- 3. Influence of different parameters on photocatalysis -- 3.1. Catalyst loading -- 3.2. Surface area and morphology -- 3.3. Effect of pH -- 3.4. Effect of temperature -- 3.5. Effect of contaminants concentration |
505 | 8 | 0 | |a 3.6. Effect of calcination temperature -- 4. Structured photocatalysts for removal of contaminants under visible light -- 4.1. Visible light-active noble metal catalysts -- 4.2. Structured TiO2 photocatalyst and its modifications under visible light -- 4.3. Cation-doped semiconductor photocatalyst -- 4.4. Anion-doped semiconductor photocatalysts -- 4.5. Codoping semiconductor -- 4.6. Self-doping/defect engineering -- 5. ZnO and its modifications -- 6. TiO2- and ZnO-based heterostructure photocatalysts -- 7. Non-TiO2- and ZnO-based new visible light-active catalysts -- 7.1. Ag3PO4 photocatalysts |
505 | 8 | 0 | |a 7.2. BiVO4 photocatalyst -- 7.3. WO3 photocatalyst -- 8. Summary -- References -- Chapter 3: Synthesis methods of nanomaterials for visible light photocatalysis -- 1. Introduction -- 2. Synthesis methods -- 2.1. Synthesis of Nanopowders -- 2.1.1. Precipitation method -- 2.1.2. Coprecipitation method -- 2.1.3. Sol-gel method -- 2.1.4. Hydrothermal/solvothermal method -- 2.1.5. Solid-state reactions -- 2.1.6. Combustion reactions -- 2.1.7. Spray pyrolysis -- 2.1.8. Flame synthesis -- 2.1.9. Electrospinning method -- 2.1.10. Chemical vapor deposition -- 2.1.11. Microwave assisted |
520 | |a Nanostructured Materials for Visible Light Photocatalysis describes the various methods of synthesizing different classes of nanostructured materials that are used as photocatalysts for the degradation of organic hazardous dyes under visible light irradiation. The first three chapters include a general introduction, basic principles, mechanisms, and synthesis methods of nanomaterials for visible light photocatalysis. Recent advances in carbon, bismuth series, transition metal oxide and chalcogenides-based nanostructured materials for visible light photocatalysis are discussed. Later chapters describe the role of phosphides, nitrides, and rare earth-based nanostructured-based materials in visible light photocatalysis, as well as the characteristics, synthesis, and fabrication of photocatalysts. The role of doping, composites, defects, different facets, morphology of nanostructured materials and green technology for efficient dye removal under visible-light irradiation are also explored. Other topics covered include large-scale production of nanostructured materials, the challenges in present photocatalytic research, the future scope of nanostructured materials regarding environmental hazard remediation under visible light, and solar light harvesting. This book is a valuable reference to researchers and enables them to learn more about designing advanced nanostructured materials for wastewater treatment and visible-light irradiation | ||
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0128230509 electronic book 0-12-823050-9 9780128230183 electronic bk. 978-0-12-823018-3 0128230185 electronic bk. 0-12-823018-5 9780128230503 electronic bk. 978-0-12-823050-3 (DE-627)1876381639 (DE-599)KEP099619660 (ELSEVIER)on1276852236 (EBP)099619660 DE-627 eng DE-627 rda eng XD-US TA418.9.N35 620.115 23 Nanostructured Materials for Visible Light Photocatalysis edited by Arpan Kumar Nayak, Niroj Kumar Sahu Amsterdam, Netherlands Oxford, United Kingdom Cambridge, MA Elsevier [2022] 1 Online-Ressource (638 pages) Text txt rdacontent Computermedien c rdamedia Online-Ressource cr rdacarrier Micro and Nano Technologies 2.1.12. Sonochemical method Intro -- Nanostructured Materials for Visible Light Photocatalysis -- Copyright -- Contents -- Contributors -- Chapter 1: Fundamentals principle of photocatalysis -- 1. Introduction -- 2. Basic principle for photocatalytic reactions -- 2.1. Direct photocatalytic principle -- 2.2. Indirect photocatalytic principle -- 3. Reaction pathways for photogenerated electron-hole pair -- 3.1. Pathways of PEHP within a semiconducting catalyst -- 3.2. Charge carrier trapping -- 4. Fundamental principles based on the type of catalyst -- 4.1. Semiconductor-based photocatalyst 4.2. Quantum dot-based photocatalyst -- 4.3. Two-dimensional material-based photocatalyst -- 5. Factors affecting the photocatalysis reaction -- 5.1. Effect of quantity of catalyst -- 5.2. Effect of wavelength and intensity of light -- 5.3. Effect of pH -- 5.4. Effect of the initial concentration of dye -- 5.5. Effect of temperature -- 5.6. Effect of additives -- 5.7. Quantum size effects -- 5.8. Effect of other parameters on the photoactivity of catalyst -- 6. Strategies for enhancement of photocatalytic properties of semiconducting materials 6.1. Semiconductor-semiconductor heterojunction (Sc-Sc H) -- 6.2. Semiconductor-metal heterojunction (Sc-M H) -- 6.3. Semiconductor-carbon heterojunction (Sc-C H) -- 6.4. Multicomponent heterojunction (McH) -- 7. Conclusion -- References -- Chapter 2: Nanomaterials aspects for photocatalysis -- 1. Introduction to nanomaterials and photocatalysis -- 2. Mechanism of photocatalysis -- 3. Influence of different parameters on photocatalysis -- 3.1. Catalyst loading -- 3.2. Surface area and morphology -- 3.3. Effect of pH -- 3.4. Effect of temperature -- 3.5. Effect of contaminants concentration 3.6. Effect of calcination temperature -- 4. Structured photocatalysts for removal of contaminants under visible light -- 4.1. Visible light-active noble metal catalysts -- 4.2. Structured TiO2 photocatalyst and its modifications under visible light -- 4.3. Cation-doped semiconductor photocatalyst -- 4.4. Anion-doped semiconductor photocatalysts -- 4.5. Codoping semiconductor -- 4.6. Self-doping/defect engineering -- 5. ZnO and its modifications -- 6. TiO2- and ZnO-based heterostructure photocatalysts -- 7. Non-TiO2- and ZnO-based new visible light-active catalysts -- 7.1. Ag3PO4 photocatalysts 7.2. BiVO4 photocatalyst -- 7.3. WO3 photocatalyst -- 8. Summary -- References -- Chapter 3: Synthesis methods of nanomaterials for visible light photocatalysis -- 1. Introduction -- 2. Synthesis methods -- 2.1. Synthesis of Nanopowders -- 2.1.1. Precipitation method -- 2.1.2. Coprecipitation method -- 2.1.3. Sol-gel method -- 2.1.4. Hydrothermal/solvothermal method -- 2.1.5. Solid-state reactions -- 2.1.6. Combustion reactions -- 2.1.7. Spray pyrolysis -- 2.1.8. Flame synthesis -- 2.1.9. Electrospinning method -- 2.1.10. Chemical vapor deposition -- 2.1.11. Microwave assisted Nanostructured Materials for Visible Light Photocatalysis describes the various methods of synthesizing different classes of nanostructured materials that are used as photocatalysts for the degradation of organic hazardous dyes under visible light irradiation. The first three chapters include a general introduction, basic principles, mechanisms, and synthesis methods of nanomaterials for visible light photocatalysis. Recent advances in carbon, bismuth series, transition metal oxide and chalcogenides-based nanostructured materials for visible light photocatalysis are discussed. Later chapters describe the role of phosphides, nitrides, and rare earth-based nanostructured-based materials in visible light photocatalysis, as well as the characteristics, synthesis, and fabrication of photocatalysts. The role of doping, composites, defects, different facets, morphology of nanostructured materials and green technology for efficient dye removal under visible-light irradiation are also explored. Other topics covered include large-scale production of nanostructured materials, the challenges in present photocatalytic research, the future scope of nanostructured materials regarding environmental hazard remediation under visible light, and solar light harvesting. This book is a valuable reference to researchers and enables them to learn more about designing advanced nanostructured materials for wastewater treatment and visible-light irradiation Nanostructured materials Optical properties Nanomateriaux - Proprietes optiques (CaQQLa)201-0258061 Nanostructured materials - Optical properties (OCoLC)fst01032633 Nayak, Arpan Kumar herausgeberin edt Sahu, Niroj Kumar herausgeberin edt Erscheint auch als Druck-Ausgabe Nayak, Arpan Kumar Nanostructured Materials for Visible Light Photocatalysis San Diego : Elsevier, 2021 9780128230183 https://www.sciencedirect.com/science/book/9780128230183 X:ELSEVIER Verlag lizenzpflichtig BSZ-33-EBS-HSAA ZDB-33-ESD BSZ-33-ESD-L1FH ZDB-33-EGE 2022 GBV-33-EBS-HST BSZ-33-EBS-C1UB GBV_ILN_60 ISIL_DE-705 SYSFLAG_1 GBV_KXP GBV_ILN_132 ISIL_DE-959 GBV_ILN_185 ISIL_DE-Sra5 GBV_ILN_370 ISIL_DE-1373 GBV_ILN_2020 ISIL_DE-Ch1 GBV_ILN_2057 ISIL_DE-L189 GBV_ILN_2111 ISIL_DE-944 BO 045F 620.115 60 01 0705 4504396599 00 --%%-- --%%-- s --%%-- Vervielfältigungen (z.B. Kopien, Downloads) sind nur von einzelnen Kapiteln oder Seiten und nur zum eigenen wissenschaftlichen Gebrauch erlaubt. Keine Weitergabe an Dritte. Kein systematisches Downloaden durch Robots. Nur für Angehörige der HSU: Volltextzugang von außerhalb des Campus mit Anmeldung über Shibboleth mit Ihrer Bibliothekskennung z 27-03-24 132 01 0959 4506287703 EBS Elsevier Vervielfältigungen (z.B. Kopien, Downloads) sind nur von einzelnen Kapiteln oder Seiten und nur zum eigenen wissenschaftlichen Gebrauch erlaubt. Keine Weitergabe an Dritte. Kein systematisches Downloaden durch Robots. Zeitlich begrenzte Lizenzierung k 02-04-24 185 01 3519 4514772348 OLR-EBS Vervielfältigungen (z.B. Kopien, Downloads) sind nur von einzelnen Kapiteln oder Seiten und nur zum eigenen wissenschaftlichen Gebrauch erlaubt. Die Weitergabe an Dritte sowie systematisches Downloaden sind untersagt. z 23-04-24 370 01 4370 4540288245 EBS Elsevier Vervielfältigungen (z.B. Kopien, Downloads) sind nur von einzelnen Kapiteln oder Seiten und nur zum eigenen wissenschaftlichen Gebrauch erlaubt. Keine Weitergabe an Dritte. Kein systematisches Downloaden durch Robots. i z 20-06-24 2020 01 DE-Ch1 4520341779 00 --%%-- --%%-- n n Campuslizenz l01 03-05-24 2057 01 DE-L189 4467489118 00 --%%-- --%%-- --%%-- n Campuslizenz l01 24-01-24 2111 01 DE-944 4440938485 00 --%%-- E-Book Elsevier --%%-- n Elektronischer Volltext - Campuslizenz l01 19-12-23 60 01 0705 https://www.sciencedirect.com/science/book/9780128230183 132 01 0959 Zugriff nur für Angehörige der Hochschule Osnabrück im Hochschulnetz https://www.sciencedirect.com/science/book/9780128230183 185 01 3519 https://www.sciencedirect.com/science/book/9780128230183 370 01 4370 E-Book: Zugriff im HCU-Netz. 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spelling |
0128230509 electronic book 0-12-823050-9 9780128230183 electronic bk. 978-0-12-823018-3 0128230185 electronic bk. 0-12-823018-5 9780128230503 electronic bk. 978-0-12-823050-3 (DE-627)1876381639 (DE-599)KEP099619660 (ELSEVIER)on1276852236 (EBP)099619660 DE-627 eng DE-627 rda eng XD-US TA418.9.N35 620.115 23 Nanostructured Materials for Visible Light Photocatalysis edited by Arpan Kumar Nayak, Niroj Kumar Sahu Amsterdam, Netherlands Oxford, United Kingdom Cambridge, MA Elsevier [2022] 1 Online-Ressource (638 pages) Text txt rdacontent Computermedien c rdamedia Online-Ressource cr rdacarrier Micro and Nano Technologies 2.1.12. Sonochemical method Intro -- Nanostructured Materials for Visible Light Photocatalysis -- Copyright -- Contents -- Contributors -- Chapter 1: Fundamentals principle of photocatalysis -- 1. Introduction -- 2. Basic principle for photocatalytic reactions -- 2.1. Direct photocatalytic principle -- 2.2. Indirect photocatalytic principle -- 3. Reaction pathways for photogenerated electron-hole pair -- 3.1. Pathways of PEHP within a semiconducting catalyst -- 3.2. Charge carrier trapping -- 4. Fundamental principles based on the type of catalyst -- 4.1. Semiconductor-based photocatalyst 4.2. Quantum dot-based photocatalyst -- 4.3. Two-dimensional material-based photocatalyst -- 5. Factors affecting the photocatalysis reaction -- 5.1. Effect of quantity of catalyst -- 5.2. Effect of wavelength and intensity of light -- 5.3. Effect of pH -- 5.4. Effect of the initial concentration of dye -- 5.5. Effect of temperature -- 5.6. Effect of additives -- 5.7. Quantum size effects -- 5.8. Effect of other parameters on the photoactivity of catalyst -- 6. Strategies for enhancement of photocatalytic properties of semiconducting materials 6.1. Semiconductor-semiconductor heterojunction (Sc-Sc H) -- 6.2. Semiconductor-metal heterojunction (Sc-M H) -- 6.3. Semiconductor-carbon heterojunction (Sc-C H) -- 6.4. Multicomponent heterojunction (McH) -- 7. Conclusion -- References -- Chapter 2: Nanomaterials aspects for photocatalysis -- 1. Introduction to nanomaterials and photocatalysis -- 2. Mechanism of photocatalysis -- 3. Influence of different parameters on photocatalysis -- 3.1. Catalyst loading -- 3.2. Surface area and morphology -- 3.3. Effect of pH -- 3.4. Effect of temperature -- 3.5. Effect of contaminants concentration 3.6. Effect of calcination temperature -- 4. Structured photocatalysts for removal of contaminants under visible light -- 4.1. Visible light-active noble metal catalysts -- 4.2. Structured TiO2 photocatalyst and its modifications under visible light -- 4.3. Cation-doped semiconductor photocatalyst -- 4.4. Anion-doped semiconductor photocatalysts -- 4.5. Codoping semiconductor -- 4.6. Self-doping/defect engineering -- 5. ZnO and its modifications -- 6. TiO2- and ZnO-based heterostructure photocatalysts -- 7. Non-TiO2- and ZnO-based new visible light-active catalysts -- 7.1. Ag3PO4 photocatalysts 7.2. BiVO4 photocatalyst -- 7.3. WO3 photocatalyst -- 8. Summary -- References -- Chapter 3: Synthesis methods of nanomaterials for visible light photocatalysis -- 1. Introduction -- 2. Synthesis methods -- 2.1. Synthesis of Nanopowders -- 2.1.1. Precipitation method -- 2.1.2. Coprecipitation method -- 2.1.3. Sol-gel method -- 2.1.4. Hydrothermal/solvothermal method -- 2.1.5. Solid-state reactions -- 2.1.6. Combustion reactions -- 2.1.7. Spray pyrolysis -- 2.1.8. Flame synthesis -- 2.1.9. Electrospinning method -- 2.1.10. Chemical vapor deposition -- 2.1.11. Microwave assisted Nanostructured Materials for Visible Light Photocatalysis describes the various methods of synthesizing different classes of nanostructured materials that are used as photocatalysts for the degradation of organic hazardous dyes under visible light irradiation. The first three chapters include a general introduction, basic principles, mechanisms, and synthesis methods of nanomaterials for visible light photocatalysis. Recent advances in carbon, bismuth series, transition metal oxide and chalcogenides-based nanostructured materials for visible light photocatalysis are discussed. Later chapters describe the role of phosphides, nitrides, and rare earth-based nanostructured-based materials in visible light photocatalysis, as well as the characteristics, synthesis, and fabrication of photocatalysts. The role of doping, composites, defects, different facets, morphology of nanostructured materials and green technology for efficient dye removal under visible-light irradiation are also explored. Other topics covered include large-scale production of nanostructured materials, the challenges in present photocatalytic research, the future scope of nanostructured materials regarding environmental hazard remediation under visible light, and solar light harvesting. This book is a valuable reference to researchers and enables them to learn more about designing advanced nanostructured materials for wastewater treatment and visible-light irradiation Nanostructured materials Optical properties Nanomateriaux - Proprietes optiques (CaQQLa)201-0258061 Nanostructured materials - Optical properties (OCoLC)fst01032633 Nayak, Arpan Kumar herausgeberin edt Sahu, Niroj Kumar herausgeberin edt Erscheint auch als Druck-Ausgabe Nayak, Arpan Kumar Nanostructured Materials for Visible Light Photocatalysis San Diego : Elsevier, 2021 9780128230183 https://www.sciencedirect.com/science/book/9780128230183 X:ELSEVIER Verlag lizenzpflichtig BSZ-33-EBS-HSAA ZDB-33-ESD BSZ-33-ESD-L1FH ZDB-33-EGE 2022 GBV-33-EBS-HST BSZ-33-EBS-C1UB GBV_ILN_60 ISIL_DE-705 SYSFLAG_1 GBV_KXP GBV_ILN_132 ISIL_DE-959 GBV_ILN_185 ISIL_DE-Sra5 GBV_ILN_370 ISIL_DE-1373 GBV_ILN_2020 ISIL_DE-Ch1 GBV_ILN_2057 ISIL_DE-L189 GBV_ILN_2111 ISIL_DE-944 BO 045F 620.115 60 01 0705 4504396599 00 --%%-- --%%-- s --%%-- Vervielfältigungen (z.B. Kopien, Downloads) sind nur von einzelnen Kapiteln oder Seiten und nur zum eigenen wissenschaftlichen Gebrauch erlaubt. Keine Weitergabe an Dritte. Kein systematisches Downloaden durch Robots. Nur für Angehörige der HSU: Volltextzugang von außerhalb des Campus mit Anmeldung über Shibboleth mit Ihrer Bibliothekskennung z 27-03-24 132 01 0959 4506287703 EBS Elsevier Vervielfältigungen (z.B. Kopien, Downloads) sind nur von einzelnen Kapiteln oder Seiten und nur zum eigenen wissenschaftlichen Gebrauch erlaubt. Keine Weitergabe an Dritte. Kein systematisches Downloaden durch Robots. Zeitlich begrenzte Lizenzierung k 02-04-24 185 01 3519 4514772348 OLR-EBS Vervielfältigungen (z.B. Kopien, Downloads) sind nur von einzelnen Kapiteln oder Seiten und nur zum eigenen wissenschaftlichen Gebrauch erlaubt. Die Weitergabe an Dritte sowie systematisches Downloaden sind untersagt. z 23-04-24 370 01 4370 4540288245 EBS Elsevier Vervielfältigungen (z.B. Kopien, Downloads) sind nur von einzelnen Kapiteln oder Seiten und nur zum eigenen wissenschaftlichen Gebrauch erlaubt. Keine Weitergabe an Dritte. Kein systematisches Downloaden durch Robots. i z 20-06-24 2020 01 DE-Ch1 4520341779 00 --%%-- --%%-- n n Campuslizenz l01 03-05-24 2057 01 DE-L189 4467489118 00 --%%-- --%%-- --%%-- n Campuslizenz l01 24-01-24 2111 01 DE-944 4440938485 00 --%%-- E-Book Elsevier --%%-- n Elektronischer Volltext - Campuslizenz l01 19-12-23 60 01 0705 https://www.sciencedirect.com/science/book/9780128230183 132 01 0959 Zugriff nur für Angehörige der Hochschule Osnabrück im Hochschulnetz https://www.sciencedirect.com/science/book/9780128230183 185 01 3519 https://www.sciencedirect.com/science/book/9780128230183 370 01 4370 E-Book: Zugriff im HCU-Netz. Zugriff von außerhalb nur für HCU-Angehörige möglich https://www.sciencedirect.com/science/book/9780128230183 2020 01 DE-Ch1 https://www.sciencedirect.com/science/book/9780128230183 2057 01 DE-L189 HTWK-Zugang https://www.sciencedirect.com/science/book/9780128230183 2111 01 DE-944 https://www.sciencedirect.com/science/book/9780128230183 132 01 0959 00 EBooks Elsevier Engineering 132 01 0959 EBS Elsevier 185 01 3519 OLR-EBS 370 01 4370 EBS Elsevier |
allfields_unstemmed |
0128230509 electronic book 0-12-823050-9 9780128230183 electronic bk. 978-0-12-823018-3 0128230185 electronic bk. 0-12-823018-5 9780128230503 electronic bk. 978-0-12-823050-3 (DE-627)1876381639 (DE-599)KEP099619660 (ELSEVIER)on1276852236 (EBP)099619660 DE-627 eng DE-627 rda eng XD-US TA418.9.N35 620.115 23 Nanostructured Materials for Visible Light Photocatalysis edited by Arpan Kumar Nayak, Niroj Kumar Sahu Amsterdam, Netherlands Oxford, United Kingdom Cambridge, MA Elsevier [2022] 1 Online-Ressource (638 pages) Text txt rdacontent Computermedien c rdamedia Online-Ressource cr rdacarrier Micro and Nano Technologies 2.1.12. Sonochemical method Intro -- Nanostructured Materials for Visible Light Photocatalysis -- Copyright -- Contents -- Contributors -- Chapter 1: Fundamentals principle of photocatalysis -- 1. Introduction -- 2. Basic principle for photocatalytic reactions -- 2.1. Direct photocatalytic principle -- 2.2. Indirect photocatalytic principle -- 3. Reaction pathways for photogenerated electron-hole pair -- 3.1. Pathways of PEHP within a semiconducting catalyst -- 3.2. Charge carrier trapping -- 4. Fundamental principles based on the type of catalyst -- 4.1. Semiconductor-based photocatalyst 4.2. Quantum dot-based photocatalyst -- 4.3. Two-dimensional material-based photocatalyst -- 5. Factors affecting the photocatalysis reaction -- 5.1. Effect of quantity of catalyst -- 5.2. Effect of wavelength and intensity of light -- 5.3. Effect of pH -- 5.4. Effect of the initial concentration of dye -- 5.5. Effect of temperature -- 5.6. Effect of additives -- 5.7. Quantum size effects -- 5.8. Effect of other parameters on the photoactivity of catalyst -- 6. Strategies for enhancement of photocatalytic properties of semiconducting materials 6.1. Semiconductor-semiconductor heterojunction (Sc-Sc H) -- 6.2. Semiconductor-metal heterojunction (Sc-M H) -- 6.3. Semiconductor-carbon heterojunction (Sc-C H) -- 6.4. Multicomponent heterojunction (McH) -- 7. Conclusion -- References -- Chapter 2: Nanomaterials aspects for photocatalysis -- 1. Introduction to nanomaterials and photocatalysis -- 2. Mechanism of photocatalysis -- 3. Influence of different parameters on photocatalysis -- 3.1. Catalyst loading -- 3.2. Surface area and morphology -- 3.3. Effect of pH -- 3.4. Effect of temperature -- 3.5. Effect of contaminants concentration 3.6. Effect of calcination temperature -- 4. Structured photocatalysts for removal of contaminants under visible light -- 4.1. Visible light-active noble metal catalysts -- 4.2. Structured TiO2 photocatalyst and its modifications under visible light -- 4.3. Cation-doped semiconductor photocatalyst -- 4.4. Anion-doped semiconductor photocatalysts -- 4.5. Codoping semiconductor -- 4.6. Self-doping/defect engineering -- 5. ZnO and its modifications -- 6. TiO2- and ZnO-based heterostructure photocatalysts -- 7. Non-TiO2- and ZnO-based new visible light-active catalysts -- 7.1. Ag3PO4 photocatalysts 7.2. BiVO4 photocatalyst -- 7.3. WO3 photocatalyst -- 8. Summary -- References -- Chapter 3: Synthesis methods of nanomaterials for visible light photocatalysis -- 1. Introduction -- 2. Synthesis methods -- 2.1. Synthesis of Nanopowders -- 2.1.1. Precipitation method -- 2.1.2. Coprecipitation method -- 2.1.3. Sol-gel method -- 2.1.4. Hydrothermal/solvothermal method -- 2.1.5. Solid-state reactions -- 2.1.6. Combustion reactions -- 2.1.7. Spray pyrolysis -- 2.1.8. Flame synthesis -- 2.1.9. Electrospinning method -- 2.1.10. Chemical vapor deposition -- 2.1.11. Microwave assisted Nanostructured Materials for Visible Light Photocatalysis describes the various methods of synthesizing different classes of nanostructured materials that are used as photocatalysts for the degradation of organic hazardous dyes under visible light irradiation. The first three chapters include a general introduction, basic principles, mechanisms, and synthesis methods of nanomaterials for visible light photocatalysis. Recent advances in carbon, bismuth series, transition metal oxide and chalcogenides-based nanostructured materials for visible light photocatalysis are discussed. Later chapters describe the role of phosphides, nitrides, and rare earth-based nanostructured-based materials in visible light photocatalysis, as well as the characteristics, synthesis, and fabrication of photocatalysts. The role of doping, composites, defects, different facets, morphology of nanostructured materials and green technology for efficient dye removal under visible-light irradiation are also explored. Other topics covered include large-scale production of nanostructured materials, the challenges in present photocatalytic research, the future scope of nanostructured materials regarding environmental hazard remediation under visible light, and solar light harvesting. This book is a valuable reference to researchers and enables them to learn more about designing advanced nanostructured materials for wastewater treatment and visible-light irradiation Nanostructured materials Optical properties Nanomateriaux - Proprietes optiques (CaQQLa)201-0258061 Nanostructured materials - Optical properties (OCoLC)fst01032633 Nayak, Arpan Kumar herausgeberin edt Sahu, Niroj Kumar herausgeberin edt Erscheint auch als Druck-Ausgabe Nayak, Arpan Kumar Nanostructured Materials for Visible Light Photocatalysis San Diego : Elsevier, 2021 9780128230183 https://www.sciencedirect.com/science/book/9780128230183 X:ELSEVIER Verlag lizenzpflichtig BSZ-33-EBS-HSAA ZDB-33-ESD BSZ-33-ESD-L1FH ZDB-33-EGE 2022 GBV-33-EBS-HST BSZ-33-EBS-C1UB GBV_ILN_60 ISIL_DE-705 SYSFLAG_1 GBV_KXP GBV_ILN_132 ISIL_DE-959 GBV_ILN_185 ISIL_DE-Sra5 GBV_ILN_370 ISIL_DE-1373 GBV_ILN_2020 ISIL_DE-Ch1 GBV_ILN_2057 ISIL_DE-L189 GBV_ILN_2111 ISIL_DE-944 BO 045F 620.115 60 01 0705 4504396599 00 --%%-- --%%-- s --%%-- Vervielfältigungen (z.B. Kopien, Downloads) sind nur von einzelnen Kapiteln oder Seiten und nur zum eigenen wissenschaftlichen Gebrauch erlaubt. Keine Weitergabe an Dritte. Kein systematisches Downloaden durch Robots. Nur für Angehörige der HSU: Volltextzugang von außerhalb des Campus mit Anmeldung über Shibboleth mit Ihrer Bibliothekskennung z 27-03-24 132 01 0959 4506287703 EBS Elsevier Vervielfältigungen (z.B. Kopien, Downloads) sind nur von einzelnen Kapiteln oder Seiten und nur zum eigenen wissenschaftlichen Gebrauch erlaubt. Keine Weitergabe an Dritte. Kein systematisches Downloaden durch Robots. Zeitlich begrenzte Lizenzierung k 02-04-24 185 01 3519 4514772348 OLR-EBS Vervielfältigungen (z.B. Kopien, Downloads) sind nur von einzelnen Kapiteln oder Seiten und nur zum eigenen wissenschaftlichen Gebrauch erlaubt. Die Weitergabe an Dritte sowie systematisches Downloaden sind untersagt. z 23-04-24 370 01 4370 4540288245 EBS Elsevier Vervielfältigungen (z.B. Kopien, Downloads) sind nur von einzelnen Kapiteln oder Seiten und nur zum eigenen wissenschaftlichen Gebrauch erlaubt. Keine Weitergabe an Dritte. Kein systematisches Downloaden durch Robots. i z 20-06-24 2020 01 DE-Ch1 4520341779 00 --%%-- --%%-- n n Campuslizenz l01 03-05-24 2057 01 DE-L189 4467489118 00 --%%-- --%%-- --%%-- n Campuslizenz l01 24-01-24 2111 01 DE-944 4440938485 00 --%%-- E-Book Elsevier --%%-- n Elektronischer Volltext - Campuslizenz l01 19-12-23 60 01 0705 https://www.sciencedirect.com/science/book/9780128230183 132 01 0959 Zugriff nur für Angehörige der Hochschule Osnabrück im Hochschulnetz https://www.sciencedirect.com/science/book/9780128230183 185 01 3519 https://www.sciencedirect.com/science/book/9780128230183 370 01 4370 E-Book: Zugriff im HCU-Netz. Zugriff von außerhalb nur für HCU-Angehörige möglich https://www.sciencedirect.com/science/book/9780128230183 2020 01 DE-Ch1 https://www.sciencedirect.com/science/book/9780128230183 2057 01 DE-L189 HTWK-Zugang https://www.sciencedirect.com/science/book/9780128230183 2111 01 DE-944 https://www.sciencedirect.com/science/book/9780128230183 132 01 0959 00 EBooks Elsevier Engineering 132 01 0959 EBS Elsevier 185 01 3519 OLR-EBS 370 01 4370 EBS Elsevier |
allfieldsGer |
0128230509 electronic book 0-12-823050-9 9780128230183 electronic bk. 978-0-12-823018-3 0128230185 electronic bk. 0-12-823018-5 9780128230503 electronic bk. 978-0-12-823050-3 (DE-627)1876381639 (DE-599)KEP099619660 (ELSEVIER)on1276852236 (EBP)099619660 DE-627 eng DE-627 rda eng XD-US TA418.9.N35 620.115 23 Nanostructured Materials for Visible Light Photocatalysis edited by Arpan Kumar Nayak, Niroj Kumar Sahu Amsterdam, Netherlands Oxford, United Kingdom Cambridge, MA Elsevier [2022] 1 Online-Ressource (638 pages) Text txt rdacontent Computermedien c rdamedia Online-Ressource cr rdacarrier Micro and Nano Technologies 2.1.12. Sonochemical method Intro -- Nanostructured Materials for Visible Light Photocatalysis -- Copyright -- Contents -- Contributors -- Chapter 1: Fundamentals principle of photocatalysis -- 1. Introduction -- 2. Basic principle for photocatalytic reactions -- 2.1. Direct photocatalytic principle -- 2.2. Indirect photocatalytic principle -- 3. Reaction pathways for photogenerated electron-hole pair -- 3.1. Pathways of PEHP within a semiconducting catalyst -- 3.2. Charge carrier trapping -- 4. Fundamental principles based on the type of catalyst -- 4.1. Semiconductor-based photocatalyst 4.2. Quantum dot-based photocatalyst -- 4.3. Two-dimensional material-based photocatalyst -- 5. Factors affecting the photocatalysis reaction -- 5.1. Effect of quantity of catalyst -- 5.2. Effect of wavelength and intensity of light -- 5.3. Effect of pH -- 5.4. Effect of the initial concentration of dye -- 5.5. Effect of temperature -- 5.6. Effect of additives -- 5.7. Quantum size effects -- 5.8. Effect of other parameters on the photoactivity of catalyst -- 6. Strategies for enhancement of photocatalytic properties of semiconducting materials 6.1. Semiconductor-semiconductor heterojunction (Sc-Sc H) -- 6.2. Semiconductor-metal heterojunction (Sc-M H) -- 6.3. Semiconductor-carbon heterojunction (Sc-C H) -- 6.4. Multicomponent heterojunction (McH) -- 7. Conclusion -- References -- Chapter 2: Nanomaterials aspects for photocatalysis -- 1. Introduction to nanomaterials and photocatalysis -- 2. Mechanism of photocatalysis -- 3. Influence of different parameters on photocatalysis -- 3.1. Catalyst loading -- 3.2. Surface area and morphology -- 3.3. Effect of pH -- 3.4. Effect of temperature -- 3.5. Effect of contaminants concentration 3.6. Effect of calcination temperature -- 4. Structured photocatalysts for removal of contaminants under visible light -- 4.1. Visible light-active noble metal catalysts -- 4.2. Structured TiO2 photocatalyst and its modifications under visible light -- 4.3. Cation-doped semiconductor photocatalyst -- 4.4. Anion-doped semiconductor photocatalysts -- 4.5. Codoping semiconductor -- 4.6. Self-doping/defect engineering -- 5. ZnO and its modifications -- 6. TiO2- and ZnO-based heterostructure photocatalysts -- 7. Non-TiO2- and ZnO-based new visible light-active catalysts -- 7.1. Ag3PO4 photocatalysts 7.2. BiVO4 photocatalyst -- 7.3. WO3 photocatalyst -- 8. Summary -- References -- Chapter 3: Synthesis methods of nanomaterials for visible light photocatalysis -- 1. Introduction -- 2. Synthesis methods -- 2.1. Synthesis of Nanopowders -- 2.1.1. Precipitation method -- 2.1.2. Coprecipitation method -- 2.1.3. Sol-gel method -- 2.1.4. Hydrothermal/solvothermal method -- 2.1.5. Solid-state reactions -- 2.1.6. Combustion reactions -- 2.1.7. Spray pyrolysis -- 2.1.8. Flame synthesis -- 2.1.9. Electrospinning method -- 2.1.10. Chemical vapor deposition -- 2.1.11. Microwave assisted Nanostructured Materials for Visible Light Photocatalysis describes the various methods of synthesizing different classes of nanostructured materials that are used as photocatalysts for the degradation of organic hazardous dyes under visible light irradiation. The first three chapters include a general introduction, basic principles, mechanisms, and synthesis methods of nanomaterials for visible light photocatalysis. Recent advances in carbon, bismuth series, transition metal oxide and chalcogenides-based nanostructured materials for visible light photocatalysis are discussed. Later chapters describe the role of phosphides, nitrides, and rare earth-based nanostructured-based materials in visible light photocatalysis, as well as the characteristics, synthesis, and fabrication of photocatalysts. The role of doping, composites, defects, different facets, morphology of nanostructured materials and green technology for efficient dye removal under visible-light irradiation are also explored. Other topics covered include large-scale production of nanostructured materials, the challenges in present photocatalytic research, the future scope of nanostructured materials regarding environmental hazard remediation under visible light, and solar light harvesting. This book is a valuable reference to researchers and enables them to learn more about designing advanced nanostructured materials for wastewater treatment and visible-light irradiation Nanostructured materials Optical properties Nanomateriaux - Proprietes optiques (CaQQLa)201-0258061 Nanostructured materials - Optical properties (OCoLC)fst01032633 Nayak, Arpan Kumar herausgeberin edt Sahu, Niroj Kumar herausgeberin edt Erscheint auch als Druck-Ausgabe Nayak, Arpan Kumar Nanostructured Materials for Visible Light Photocatalysis San Diego : Elsevier, 2021 9780128230183 https://www.sciencedirect.com/science/book/9780128230183 X:ELSEVIER Verlag lizenzpflichtig BSZ-33-EBS-HSAA ZDB-33-ESD BSZ-33-ESD-L1FH ZDB-33-EGE 2022 GBV-33-EBS-HST BSZ-33-EBS-C1UB GBV_ILN_60 ISIL_DE-705 SYSFLAG_1 GBV_KXP GBV_ILN_132 ISIL_DE-959 GBV_ILN_185 ISIL_DE-Sra5 GBV_ILN_370 ISIL_DE-1373 GBV_ILN_2020 ISIL_DE-Ch1 GBV_ILN_2057 ISIL_DE-L189 GBV_ILN_2111 ISIL_DE-944 BO 045F 620.115 60 01 0705 4504396599 00 --%%-- --%%-- s --%%-- Vervielfältigungen (z.B. Kopien, Downloads) sind nur von einzelnen Kapiteln oder Seiten und nur zum eigenen wissenschaftlichen Gebrauch erlaubt. Keine Weitergabe an Dritte. Kein systematisches Downloaden durch Robots. Nur für Angehörige der HSU: Volltextzugang von außerhalb des Campus mit Anmeldung über Shibboleth mit Ihrer Bibliothekskennung z 27-03-24 132 01 0959 4506287703 EBS Elsevier Vervielfältigungen (z.B. Kopien, Downloads) sind nur von einzelnen Kapiteln oder Seiten und nur zum eigenen wissenschaftlichen Gebrauch erlaubt. Keine Weitergabe an Dritte. Kein systematisches Downloaden durch Robots. Zeitlich begrenzte Lizenzierung k 02-04-24 185 01 3519 4514772348 OLR-EBS Vervielfältigungen (z.B. Kopien, Downloads) sind nur von einzelnen Kapiteln oder Seiten und nur zum eigenen wissenschaftlichen Gebrauch erlaubt. Die Weitergabe an Dritte sowie systematisches Downloaden sind untersagt. z 23-04-24 370 01 4370 4540288245 EBS Elsevier Vervielfältigungen (z.B. Kopien, Downloads) sind nur von einzelnen Kapiteln oder Seiten und nur zum eigenen wissenschaftlichen Gebrauch erlaubt. Keine Weitergabe an Dritte. Kein systematisches Downloaden durch Robots. i z 20-06-24 2020 01 DE-Ch1 4520341779 00 --%%-- --%%-- n n Campuslizenz l01 03-05-24 2057 01 DE-L189 4467489118 00 --%%-- --%%-- --%%-- n Campuslizenz l01 24-01-24 2111 01 DE-944 4440938485 00 --%%-- E-Book Elsevier --%%-- n Elektronischer Volltext - Campuslizenz l01 19-12-23 60 01 0705 https://www.sciencedirect.com/science/book/9780128230183 132 01 0959 Zugriff nur für Angehörige der Hochschule Osnabrück im Hochschulnetz https://www.sciencedirect.com/science/book/9780128230183 185 01 3519 https://www.sciencedirect.com/science/book/9780128230183 370 01 4370 E-Book: Zugriff im HCU-Netz. Zugriff von außerhalb nur für HCU-Angehörige möglich https://www.sciencedirect.com/science/book/9780128230183 2020 01 DE-Ch1 https://www.sciencedirect.com/science/book/9780128230183 2057 01 DE-L189 HTWK-Zugang https://www.sciencedirect.com/science/book/9780128230183 2111 01 DE-944 https://www.sciencedirect.com/science/book/9780128230183 132 01 0959 00 EBooks Elsevier Engineering 132 01 0959 EBS Elsevier 185 01 3519 OLR-EBS 370 01 4370 EBS Elsevier |
allfieldsSound |
0128230509 electronic book 0-12-823050-9 9780128230183 electronic bk. 978-0-12-823018-3 0128230185 electronic bk. 0-12-823018-5 9780128230503 electronic bk. 978-0-12-823050-3 (DE-627)1876381639 (DE-599)KEP099619660 (ELSEVIER)on1276852236 (EBP)099619660 DE-627 eng DE-627 rda eng XD-US TA418.9.N35 620.115 23 Nanostructured Materials for Visible Light Photocatalysis edited by Arpan Kumar Nayak, Niroj Kumar Sahu Amsterdam, Netherlands Oxford, United Kingdom Cambridge, MA Elsevier [2022] 1 Online-Ressource (638 pages) Text txt rdacontent Computermedien c rdamedia Online-Ressource cr rdacarrier Micro and Nano Technologies 2.1.12. Sonochemical method Intro -- Nanostructured Materials for Visible Light Photocatalysis -- Copyright -- Contents -- Contributors -- Chapter 1: Fundamentals principle of photocatalysis -- 1. Introduction -- 2. Basic principle for photocatalytic reactions -- 2.1. Direct photocatalytic principle -- 2.2. Indirect photocatalytic principle -- 3. Reaction pathways for photogenerated electron-hole pair -- 3.1. Pathways of PEHP within a semiconducting catalyst -- 3.2. Charge carrier trapping -- 4. Fundamental principles based on the type of catalyst -- 4.1. Semiconductor-based photocatalyst 4.2. Quantum dot-based photocatalyst -- 4.3. Two-dimensional material-based photocatalyst -- 5. Factors affecting the photocatalysis reaction -- 5.1. Effect of quantity of catalyst -- 5.2. Effect of wavelength and intensity of light -- 5.3. Effect of pH -- 5.4. Effect of the initial concentration of dye -- 5.5. Effect of temperature -- 5.6. Effect of additives -- 5.7. Quantum size effects -- 5.8. Effect of other parameters on the photoactivity of catalyst -- 6. Strategies for enhancement of photocatalytic properties of semiconducting materials 6.1. Semiconductor-semiconductor heterojunction (Sc-Sc H) -- 6.2. Semiconductor-metal heterojunction (Sc-M H) -- 6.3. Semiconductor-carbon heterojunction (Sc-C H) -- 6.4. Multicomponent heterojunction (McH) -- 7. Conclusion -- References -- Chapter 2: Nanomaterials aspects for photocatalysis -- 1. Introduction to nanomaterials and photocatalysis -- 2. Mechanism of photocatalysis -- 3. Influence of different parameters on photocatalysis -- 3.1. Catalyst loading -- 3.2. Surface area and morphology -- 3.3. Effect of pH -- 3.4. Effect of temperature -- 3.5. Effect of contaminants concentration 3.6. Effect of calcination temperature -- 4. Structured photocatalysts for removal of contaminants under visible light -- 4.1. Visible light-active noble metal catalysts -- 4.2. Structured TiO2 photocatalyst and its modifications under visible light -- 4.3. Cation-doped semiconductor photocatalyst -- 4.4. Anion-doped semiconductor photocatalysts -- 4.5. Codoping semiconductor -- 4.6. Self-doping/defect engineering -- 5. ZnO and its modifications -- 6. TiO2- and ZnO-based heterostructure photocatalysts -- 7. Non-TiO2- and ZnO-based new visible light-active catalysts -- 7.1. Ag3PO4 photocatalysts 7.2. BiVO4 photocatalyst -- 7.3. WO3 photocatalyst -- 8. Summary -- References -- Chapter 3: Synthesis methods of nanomaterials for visible light photocatalysis -- 1. Introduction -- 2. Synthesis methods -- 2.1. Synthesis of Nanopowders -- 2.1.1. Precipitation method -- 2.1.2. Coprecipitation method -- 2.1.3. Sol-gel method -- 2.1.4. Hydrothermal/solvothermal method -- 2.1.5. Solid-state reactions -- 2.1.6. Combustion reactions -- 2.1.7. Spray pyrolysis -- 2.1.8. Flame synthesis -- 2.1.9. Electrospinning method -- 2.1.10. Chemical vapor deposition -- 2.1.11. Microwave assisted Nanostructured Materials for Visible Light Photocatalysis describes the various methods of synthesizing different classes of nanostructured materials that are used as photocatalysts for the degradation of organic hazardous dyes under visible light irradiation. The first three chapters include a general introduction, basic principles, mechanisms, and synthesis methods of nanomaterials for visible light photocatalysis. Recent advances in carbon, bismuth series, transition metal oxide and chalcogenides-based nanostructured materials for visible light photocatalysis are discussed. Later chapters describe the role of phosphides, nitrides, and rare earth-based nanostructured-based materials in visible light photocatalysis, as well as the characteristics, synthesis, and fabrication of photocatalysts. The role of doping, composites, defects, different facets, morphology of nanostructured materials and green technology for efficient dye removal under visible-light irradiation are also explored. Other topics covered include large-scale production of nanostructured materials, the challenges in present photocatalytic research, the future scope of nanostructured materials regarding environmental hazard remediation under visible light, and solar light harvesting. This book is a valuable reference to researchers and enables them to learn more about designing advanced nanostructured materials for wastewater treatment and visible-light irradiation Nanostructured materials Optical properties Nanomateriaux - Proprietes optiques (CaQQLa)201-0258061 Nanostructured materials - Optical properties (OCoLC)fst01032633 Nayak, Arpan Kumar herausgeberin edt Sahu, Niroj Kumar herausgeberin edt Erscheint auch als Druck-Ausgabe Nayak, Arpan Kumar Nanostructured Materials for Visible Light Photocatalysis San Diego : Elsevier, 2021 9780128230183 https://www.sciencedirect.com/science/book/9780128230183 X:ELSEVIER Verlag lizenzpflichtig BSZ-33-EBS-HSAA ZDB-33-ESD BSZ-33-ESD-L1FH ZDB-33-EGE 2022 GBV-33-EBS-HST BSZ-33-EBS-C1UB GBV_ILN_60 ISIL_DE-705 SYSFLAG_1 GBV_KXP GBV_ILN_132 ISIL_DE-959 GBV_ILN_185 ISIL_DE-Sra5 GBV_ILN_370 ISIL_DE-1373 GBV_ILN_2020 ISIL_DE-Ch1 GBV_ILN_2057 ISIL_DE-L189 GBV_ILN_2111 ISIL_DE-944 BO 045F 620.115 60 01 0705 4504396599 00 --%%-- --%%-- s --%%-- Vervielfältigungen (z.B. Kopien, Downloads) sind nur von einzelnen Kapiteln oder Seiten und nur zum eigenen wissenschaftlichen Gebrauch erlaubt. Keine Weitergabe an Dritte. Kein systematisches Downloaden durch Robots. Nur für Angehörige der HSU: Volltextzugang von außerhalb des Campus mit Anmeldung über Shibboleth mit Ihrer Bibliothekskennung z 27-03-24 132 01 0959 4506287703 EBS Elsevier Vervielfältigungen (z.B. Kopien, Downloads) sind nur von einzelnen Kapiteln oder Seiten und nur zum eigenen wissenschaftlichen Gebrauch erlaubt. Keine Weitergabe an Dritte. Kein systematisches Downloaden durch Robots. Zeitlich begrenzte Lizenzierung k 02-04-24 185 01 3519 4514772348 OLR-EBS Vervielfältigungen (z.B. Kopien, Downloads) sind nur von einzelnen Kapiteln oder Seiten und nur zum eigenen wissenschaftlichen Gebrauch erlaubt. Die Weitergabe an Dritte sowie systematisches Downloaden sind untersagt. z 23-04-24 370 01 4370 4540288245 EBS Elsevier Vervielfältigungen (z.B. 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Sonochemical method</subfield></datafield><datafield tag="505" ind1="8" ind2="0"><subfield code="a">Intro -- Nanostructured Materials for Visible Light Photocatalysis -- Copyright -- Contents -- Contributors -- Chapter 1: Fundamentals principle of photocatalysis -- 1. Introduction -- 2. Basic principle for photocatalytic reactions -- 2.1. Direct photocatalytic principle -- 2.2. Indirect photocatalytic principle -- 3. Reaction pathways for photogenerated electron-hole pair -- 3.1. Pathways of PEHP within a semiconducting catalyst -- 3.2. Charge carrier trapping -- 4. Fundamental principles based on the type of catalyst -- 4.1. Semiconductor-based photocatalyst</subfield></datafield><datafield tag="505" ind1="8" ind2="0"><subfield code="a">4.2. Quantum dot-based photocatalyst -- 4.3. Two-dimensional material-based photocatalyst -- 5. Factors affecting the photocatalysis reaction -- 5.1. Effect of quantity of catalyst -- 5.2. Effect of wavelength and intensity of light -- 5.3. Effect of pH -- 5.4. Effect of the initial concentration of dye -- 5.5. Effect of temperature -- 5.6. Effect of additives -- 5.7. Quantum size effects -- 5.8. Effect of other parameters on the photoactivity of catalyst -- 6. Strategies for enhancement of photocatalytic properties of semiconducting materials</subfield></datafield><datafield tag="505" ind1="8" ind2="0"><subfield code="a">6.1. Semiconductor-semiconductor heterojunction (Sc-Sc H) -- 6.2. Semiconductor-metal heterojunction (Sc-M H) -- 6.3. Semiconductor-carbon heterojunction (Sc-C H) -- 6.4. Multicomponent heterojunction (McH) -- 7. Conclusion -- References -- Chapter 2: Nanomaterials aspects for photocatalysis -- 1. Introduction to nanomaterials and photocatalysis -- 2. Mechanism of photocatalysis -- 3. Influence of different parameters on photocatalysis -- 3.1. Catalyst loading -- 3.2. Surface area and morphology -- 3.3. Effect of pH -- 3.4. Effect of temperature -- 3.5. Effect of contaminants concentration</subfield></datafield><datafield tag="505" ind1="8" ind2="0"><subfield code="a">3.6. Effect of calcination temperature -- 4. Structured photocatalysts for removal of contaminants under visible light -- 4.1. Visible light-active noble metal catalysts -- 4.2. Structured TiO2 photocatalyst and its modifications under visible light -- 4.3. Cation-doped semiconductor photocatalyst -- 4.4. Anion-doped semiconductor photocatalysts -- 4.5. Codoping semiconductor -- 4.6. Self-doping/defect engineering -- 5. ZnO and its modifications -- 6. TiO2- and ZnO-based heterostructure photocatalysts -- 7. Non-TiO2- and ZnO-based new visible light-active catalysts -- 7.1. Ag3PO4 photocatalysts</subfield></datafield><datafield tag="505" ind1="8" ind2="0"><subfield code="a">7.2. BiVO4 photocatalyst -- 7.3. WO3 photocatalyst -- 8. Summary -- References -- Chapter 3: Synthesis methods of nanomaterials for visible light photocatalysis -- 1. Introduction -- 2. Synthesis methods -- 2.1. Synthesis of Nanopowders -- 2.1.1. Precipitation method -- 2.1.2. Coprecipitation method -- 2.1.3. Sol-gel method -- 2.1.4. Hydrothermal/solvothermal method -- 2.1.5. Solid-state reactions -- 2.1.6. Combustion reactions -- 2.1.7. Spray pyrolysis -- 2.1.8. Flame synthesis -- 2.1.9. Electrospinning method -- 2.1.10. Chemical vapor deposition -- 2.1.11. Microwave assisted</subfield></datafield><datafield tag="520" ind1=" " ind2=" "><subfield code="a">Nanostructured Materials for Visible Light Photocatalysis describes the various methods of synthesizing different classes of nanostructured materials that are used as photocatalysts for the degradation of organic hazardous dyes under visible light irradiation. The first three chapters include a general introduction, basic principles, mechanisms, and synthesis methods of nanomaterials for visible light photocatalysis. Recent advances in carbon, bismuth series, transition metal oxide and chalcogenides-based nanostructured materials for visible light photocatalysis are discussed. Later chapters describe the role of phosphides, nitrides, and rare earth-based nanostructured-based materials in visible light photocatalysis, as well as the characteristics, synthesis, and fabrication of photocatalysts. The role of doping, composites, defects, different facets, morphology of nanostructured materials and green technology for efficient dye removal under visible-light irradiation are also explored. Other topics covered include large-scale production of nanostructured materials, the challenges in present photocatalytic research, the future scope of nanostructured materials regarding environmental hazard remediation under visible light, and solar light harvesting. 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Intro -- Nanostructured Materials for Visible Light Photocatalysis -- Copyright -- Contents -- Contributors -- Chapter 1: Fundamentals principle of photocatalysis -- 1. Introduction -- 2. Basic principle for photocatalytic reactions -- 2.1. Direct photocatalytic principle -- 2.2. Indirect photocatalytic principle -- 3. Reaction pathways for photogenerated electron-hole pair -- 3.1. Pathways of PEHP within a semiconducting catalyst -- 3.2. Charge carrier trapping -- 4. Fundamental principles based on the type of catalyst -- 4.1. Semiconductor-based photocatalyst 4.2. Quantum dot-based photocatalyst -- 4.3. Two-dimensional material-based photocatalyst -- 5. Factors affecting the photocatalysis reaction -- 5.1. Effect of quantity of catalyst -- 5.2. Effect of wavelength and intensity of light -- 5.3. Effect of pH -- 5.4. Effect of the initial concentration of dye -- 5.5. Effect of temperature -- 5.6. Effect of additives -- 5.7. Quantum size effects -- 5.8. Effect of other parameters on the photoactivity of catalyst -- 6. Strategies for enhancement of photocatalytic properties of semiconducting materials 6.1. Semiconductor-semiconductor heterojunction (Sc-Sc H) -- 6.2. Semiconductor-metal heterojunction (Sc-M H) -- 6.3. Semiconductor-carbon heterojunction (Sc-C H) -- 6.4. Multicomponent heterojunction (McH) -- 7. Conclusion -- References -- Chapter 2: Nanomaterials aspects for photocatalysis -- 1. Introduction to nanomaterials and photocatalysis -- 2. Mechanism of photocatalysis -- 3. Influence of different parameters on photocatalysis -- 3.1. Catalyst loading -- 3.2. Surface area and morphology -- 3.3. Effect of pH -- 3.4. Effect of temperature -- 3.5. Effect of contaminants concentration 3.6. Effect of calcination temperature -- 4. Structured photocatalysts for removal of contaminants under visible light -- 4.1. Visible light-active noble metal catalysts -- 4.2. Structured TiO2 photocatalyst and its modifications under visible light -- 4.3. Cation-doped semiconductor photocatalyst -- 4.4. Anion-doped semiconductor photocatalysts -- 4.5. Codoping semiconductor -- 4.6. Self-doping/defect engineering -- 5. ZnO and its modifications -- 6. TiO2- and ZnO-based heterostructure photocatalysts -- 7. Non-TiO2- and ZnO-based new visible light-active catalysts -- 7.1. Ag3PO4 photocatalysts 7.2. BiVO4 photocatalyst -- 7.3. WO3 photocatalyst -- 8. Summary -- References -- Chapter 3: Synthesis methods of nanomaterials for visible light photocatalysis -- 1. Introduction -- 2. Synthesis methods -- 2.1. Synthesis of Nanopowders -- 2.1.1. Precipitation method -- 2.1.2. Coprecipitation method -- 2.1.3. Sol-gel method -- 2.1.4. Hydrothermal/solvothermal method -- 2.1.5. Solid-state reactions -- 2.1.6. Combustion reactions -- 2.1.7. Spray pyrolysis -- 2.1.8. Flame synthesis -- 2.1.9. Electrospinning method -- 2.1.10. Chemical vapor deposition -- 2.1.11. Microwave assisted |
spellingShingle |
Intro -- Nanostructured Materials for Visible Light Photocatalysis -- Copyright -- Contents -- Contributors -- Chapter 1: Fundamentals principle of photocatalysis -- 1. Introduction -- 2. Basic principle for photocatalytic reactions -- 2.1. Direct photocatalytic principle -- 2.2. Indirect photocatalytic principle -- 3. Reaction pathways for photogenerated electron-hole pair -- 3.1. Pathways of PEHP within a semiconducting catalyst -- 3.2. Charge carrier trapping -- 4. Fundamental principles based on the type of catalyst -- 4.1. Semiconductor-based photocatalyst 4.2. Quantum dot-based photocatalyst -- 4.3. Two-dimensional material-based photocatalyst -- 5. Factors affecting the photocatalysis reaction -- 5.1. Effect of quantity of catalyst -- 5.2. Effect of wavelength and intensity of light -- 5.3. Effect of pH -- 5.4. Effect of the initial concentration of dye -- 5.5. Effect of temperature -- 5.6. Effect of additives -- 5.7. Quantum size effects -- 5.8. Effect of other parameters on the photoactivity of catalyst -- 6. Strategies for enhancement of photocatalytic properties of semiconducting materials 6.1. Semiconductor-semiconductor heterojunction (Sc-Sc H) -- 6.2. Semiconductor-metal heterojunction (Sc-M H) -- 6.3. Semiconductor-carbon heterojunction (Sc-C H) -- 6.4. Multicomponent heterojunction (McH) -- 7. Conclusion -- References -- Chapter 2: Nanomaterials aspects for photocatalysis -- 1. Introduction to nanomaterials and photocatalysis -- 2. Mechanism of photocatalysis -- 3. Influence of different parameters on photocatalysis -- 3.1. Catalyst loading -- 3.2. Surface area and morphology -- 3.3. Effect of pH -- 3.4. Effect of temperature -- 3.5. Effect of contaminants concentration 3.6. Effect of calcination temperature -- 4. Structured photocatalysts for removal of contaminants under visible light -- 4.1. Visible light-active noble metal catalysts -- 4.2. Structured TiO2 photocatalyst and its modifications under visible light -- 4.3. Cation-doped semiconductor photocatalyst -- 4.4. Anion-doped semiconductor photocatalysts -- 4.5. Codoping semiconductor -- 4.6. Self-doping/defect engineering -- 5. ZnO and its modifications -- 6. TiO2- and ZnO-based heterostructure photocatalysts -- 7. Non-TiO2- and ZnO-based new visible light-active catalysts -- 7.1. Ag3PO4 photocatalysts 7.2. BiVO4 photocatalyst -- 7.3. WO3 photocatalyst -- 8. Summary -- References -- Chapter 3: Synthesis methods of nanomaterials for visible light photocatalysis -- 1. Introduction -- 2. Synthesis methods -- 2.1. Synthesis of Nanopowders -- 2.1.1. Precipitation method -- 2.1.2. Coprecipitation method -- 2.1.3. Sol-gel method -- 2.1.4. Hydrothermal/solvothermal method -- 2.1.5. Solid-state reactions -- 2.1.6. Combustion reactions -- 2.1.7. Spray pyrolysis -- 2.1.8. Flame synthesis -- 2.1.9. Electrospinning method -- 2.1.10. Chemical vapor deposition -- 2.1.11. Microwave assisted misc TA418.9.N35 ddc 620.115 misc Nanostructured materials misc Nanomateriaux - Proprietes optiques misc Nanostructured materials - Optical properties 132 EBooks Elsevier Engineering Nanostructured Materials for Visible Light Photocatalysis |
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Nanostructured Materials for Visible Light Photocatalysis describes the various methods of synthesizing different classes of nanostructured materials that are used as photocatalysts for the degradation of organic hazardous dyes under visible light irradiation. The first three chapters include a general introduction, basic principles, mechanisms, and synthesis methods of nanomaterials for visible light photocatalysis. Recent advances in carbon, bismuth series, transition metal oxide and chalcogenides-based nanostructured materials for visible light photocatalysis are discussed. Later chapters describe the role of phosphides, nitrides, and rare earth-based nanostructured-based materials in visible light photocatalysis, as well as the characteristics, synthesis, and fabrication of photocatalysts. The role of doping, composites, defects, different facets, morphology of nanostructured materials and green technology for efficient dye removal under visible-light irradiation are also explored. Other topics covered include large-scale production of nanostructured materials, the challenges in present photocatalytic research, the future scope of nanostructured materials regarding environmental hazard remediation under visible light, and solar light harvesting. This book is a valuable reference to researchers and enables them to learn more about designing advanced nanostructured materials for wastewater treatment and visible-light irradiation 2.1.12. Sonochemical method |
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Nanostructured Materials for Visible Light Photocatalysis describes the various methods of synthesizing different classes of nanostructured materials that are used as photocatalysts for the degradation of organic hazardous dyes under visible light irradiation. The first three chapters include a general introduction, basic principles, mechanisms, and synthesis methods of nanomaterials for visible light photocatalysis. Recent advances in carbon, bismuth series, transition metal oxide and chalcogenides-based nanostructured materials for visible light photocatalysis are discussed. Later chapters describe the role of phosphides, nitrides, and rare earth-based nanostructured-based materials in visible light photocatalysis, as well as the characteristics, synthesis, and fabrication of photocatalysts. The role of doping, composites, defects, different facets, morphology of nanostructured materials and green technology for efficient dye removal under visible-light irradiation are also explored. Other topics covered include large-scale production of nanostructured materials, the challenges in present photocatalytic research, the future scope of nanostructured materials regarding environmental hazard remediation under visible light, and solar light harvesting. This book is a valuable reference to researchers and enables them to learn more about designing advanced nanostructured materials for wastewater treatment and visible-light irradiation 2.1.12. Sonochemical method |
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Nanostructured Materials for Visible Light Photocatalysis describes the various methods of synthesizing different classes of nanostructured materials that are used as photocatalysts for the degradation of organic hazardous dyes under visible light irradiation. The first three chapters include a general introduction, basic principles, mechanisms, and synthesis methods of nanomaterials for visible light photocatalysis. Recent advances in carbon, bismuth series, transition metal oxide and chalcogenides-based nanostructured materials for visible light photocatalysis are discussed. Later chapters describe the role of phosphides, nitrides, and rare earth-based nanostructured-based materials in visible light photocatalysis, as well as the characteristics, synthesis, and fabrication of photocatalysts. The role of doping, composites, defects, different facets, morphology of nanostructured materials and green technology for efficient dye removal under visible-light irradiation are also explored. Other topics covered include large-scale production of nanostructured materials, the challenges in present photocatalytic research, the future scope of nanostructured materials regarding environmental hazard remediation under visible light, and solar light harvesting. This book is a valuable reference to researchers and enables them to learn more about designing advanced nanostructured materials for wastewater treatment and visible-light irradiation 2.1.12. Sonochemical method |
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Recent advances in carbon, bismuth series, transition metal oxide and chalcogenides-based nanostructured materials for visible light photocatalysis are discussed. Later chapters describe the role of phosphides, nitrides, and rare earth-based nanostructured-based materials in visible light photocatalysis, as well as the characteristics, synthesis, and fabrication of photocatalysts. The role of doping, composites, defects, different facets, morphology of nanostructured materials and green technology for efficient dye removal under visible-light irradiation are also explored. Other topics covered include large-scale production of nanostructured materials, the challenges in present photocatalytic research, the future scope of nanostructured materials regarding environmental hazard remediation under visible light, and solar light harvesting. 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