首页|Ga(X)N/Si nanoarchitecture:An emerging semiconductor platform for sunlight-powered water splitting toward hydrogen

Ga(X)N/Si nanoarchitecture:An emerging semiconductor platform for sunlight-powered water splitting toward hydrogen

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Sunlight-powered water splitting presents a promising strategy for converting intermittent and virtually unlimited solar energy into energy-dense and storable green hydrogen.Since the pioneering discovery by Honda and Fujishima,considerable efforts have been made in this research area.Among various materials developed,Ga(X)N/Si(X=In,Ge,Mg,etc.)nanoarchitecture has emerged as a disruptive semiconductor platform to split water toward hydrogen by sunlight.This paper introduces the characteristics,properties,and growth/synthesis/fabri-cation methods of Ga(X)N/Si nanoarchitecture,primarily focusing on explaining the suitability as an ideal platform for sunlight-powered water splitting toward green hydrogen fuel.In addition,it exclusively summarizes the recent progress and development of Ga(X)N/Si nano-architecture for photocatalytic and photoelectrochemical water splitting.Moreover,it describes the challenges and prospects of artificial photosynthesis integrated device and system using Ga(X)N/Si nanoarchitectures for solar water splitting toward hydrogen.

Ga(X)N/Si nanoarchitectureartificial photosynthesiswater splittingsolar toward hydrogen

Yixin LI、Sharif Md.SADAF、Baowen ZHOU

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Key Laboratory for Power Machinery and Engineering of the Ministry of Education,Research Center for Renewable Synthetic Fuel,School of Mechanical Engineering,Shanghai Jiao Tong University,Shanghai 200240,China

Centre Energie,Matériaux et Télécommunications,Institut National de la Recherche Scientifique(INRS)-Université du Québec,1650 Boulevard Lionel-Boulet,Varennes,Québec J3X1S2,Canada

国家自然科学基金Shanghai Pilot Program for Basic Research—Shanghai Jiao Tong UniversityOceanic Interdisciplinary Program of Shanghai Jiao Tong UniversityNatural Science and Engineering Research Council of Canada(NSERC)Discovery Grant Program

2210909521TQ1400211SL2022MS007

2024

10.1007/s11708-023-0881-9

能源前沿
高等教育出版社

能源前沿

CSTPCDEI
影响因子:0.2
ISSN:2095-1701
年,卷(期):2024.18(1)
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