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Nanostructured materials for visible light photocatalysis

紀錄類型:	書目-電子資源 : Monograph/item
正題名/作者:	Nanostructured materials for visible light photocatalysis/ edited by Arpan Kumar Nayak, Niroj Kumar Sahu.
其他作者:	Nayak, Arpan Kumar.
出版者:	Amsterdam, Netherlands ;Elsevier, : 2022.,
面頁冊數:	1 online resource (638 p.)
附註:	2.1.12. Sonochemical method.
內容註:	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
內容註:	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
內容註:	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
內容註:	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
內容註:	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
標題:	Nanostructured materials - Optical properties. -
電子資源:	https://www.sciencedirect.com/science/book/9780128230183
ISBN:	9780128230503

Nanostructured materials for visible light photocatalysis
Nanostructured materials for visible light photocatalysis[electronic resource] /edited by Arpan Kumar Nayak, Niroj Kumar Sahu. - Amsterdam, Netherlands ;Elsevier,2022. - 1 online resource (638 p.) - Micro and Nano Technologies. - Micro & 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

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.

ISBN: 9780128230503Subjects--Topical Terms:

576101
Nanostructured materials
--Optical properties.Index Terms--Genre/Form:

542853
Electronic books.

LC Class. No.: TA418.9.N35 / N35 2022eb

Dewey Class. No.: 620.115

Nanostructured materials for visible light photocatalysis
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505 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 $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 $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 $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 $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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