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Photocatalytic hydrogen fuel generat...

Abdullah, Hairus.

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Photocatalytic hydrogen fuel generation = designing highly efficient semiconductor materials /

紀錄類型:	書目-電子資源 : Monograph/item
正題名/作者:	Photocatalytic hydrogen fuel generation/ edited by Hairus Abdullah.
其他題名:	designing highly efficient semiconductor materials /
其他作者:	Abdullah, Hairus.
出版者:	Singapore :Springer Nature Singapore : : 2025.,
面頁冊數:	x, 314 p. :ill. (some col.), digital ;24 cm.
內容註:	1. Photocatalysis fundamental with essential parameters for a water-splitting process -- 2. Surface defect engineering in photocatalytic hydrogen evolution reaction -- 3 Composite semiconductor as a crucial strategy to enhance photocatalytic activities in hydrogen production -- 4. Surface plasmon resonance-based photocatalyst in evolving hydrogen fuel gas -- 5. Carbon-based nano photocatalyst with superior chemical and physical properties in enhancing hydrogen evolution reaction.
Contained By:	Springer Nature eBook
標題:	Hydrogen as fuel. -
電子資源:	https://doi.org/10.1007/978-981-96-1921-4
ISBN:	9789819619214

Photocatalytic hydrogen fuel generation = designing highly efficient semiconductor materials /
Photocatalytic hydrogen fuel generationdesigning highly efficient semiconductor materials /[electronic resource] :edited by Hairus Abdullah. - Singapore :Springer Nature Singapore :2025. - x, 314 p. :ill. (some col.), digital ;24 cm. - Green energy and technology,1865-3537. - Green energy and technology..

1. Photocatalysis fundamental with essential parameters for a water-splitting process -- 2. Surface defect engineering in photocatalytic hydrogen evolution reaction -- 3 Composite semiconductor as a crucial strategy to enhance photocatalytic activities in hydrogen production -- 4. Surface plasmon resonance-based photocatalyst in evolving hydrogen fuel gas -- 5. Carbon-based nano photocatalyst with superior chemical and physical properties in enhancing hydrogen evolution reaction.

This book highlights crucial parameters and strategies in photocatalytic water splitting. The process utilizes light energy to drive the separation of water into hydrogen and oxygen with the help of a photocatalyst. The efficiency and performance of catalytic activities are determined by various parameters supported by material characterizations. Commonly, the catalytic performances in visible-light photocatalytic water splitting are governed by bandgap energy, surface area, crystal structure, charge carrier dynamics, catalyst loading, cocatalyst, pH of solution, and reaction temperatures. However, covering all the requirements to obtain a highly efficient catalytic activity is an impossible task. Some recent strategies with promising results have been explored to improve and optimize the catalytic properties. In addition, various techniques for catalytic material characterizations, such as XRD, SEM, TEM, XPS, XANES, EXALFS, TRPL, TPC, EIS, and CV analysis, are also discussed. Finally, some related perspectives and outlook are discussed for future development.

ISBN: 9789819619214

Standard No.: 10.1007/978-981-96-1921-4doiSubjects--Topical Terms:

561894
Hydrogen as fuel.

LC Class. No.: TP359.H8

Dewey Class. No.: 665.81

Photocatalytic hydrogen fuel generation = designing highly efficient semiconductor materials /
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520 $a This book highlights crucial parameters and strategies in photocatalytic water splitting. The process utilizes light energy to drive the separation of water into hydrogen and oxygen with the help of a photocatalyst. The efficiency and performance of catalytic activities are determined by various parameters supported by material characterizations. Commonly, the catalytic performances in visible-light photocatalytic water splitting are governed by bandgap energy, surface area, crystal structure, charge carrier dynamics, catalyst loading, cocatalyst, pH of solution, and reaction temperatures. However, covering all the requirements to obtain a highly efficient catalytic activity is an impossible task. Some recent strategies with promising results have been explored to improve and optimize the catalytic properties. In addition, various techniques for catalytic material characterizations, such as XRD, SEM, TEM, XPS, XANES, EXALFS, TRPL, TPC, EIS, and CV analysis, are also discussed. Finally, some related perspectives and outlook are discussed for future development.
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