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Volumn 11, Issue 8, 2018, Pages 2198-2207

Pyro-catalytic hydrogen evolution by Ba0.7Sr0.3TiO3 nanoparticles: Harvesting cold-hot alternation energy near room-temperature

(8) Xu, Xiaoli a Xiao, Lingbo a Jia, Yanmin a Wu, Zheng a Wang, Feifei b Wang, Yaojin c Haugen, Neale O a Huang, Haitao d

a ZHEJIANG NORMAL UNIVERSITY (China)

b SHANGHAI NORMAL UNIVERSITY (China)

c NANJING UNIVERSITY OF SCIENCE AND TECHNOLOGY (China)

d HONG KONG POLYTECHNIC UNIVERSITY (Hong Kong)

Author keywords

[No Author keywords available]

Indexed keywords

BARIUM COMPOUNDS; CONDUCTION BANDS; ENERGY CONSERVATION; ENERGY EFFICIENCY; ENERGY UTILIZATION; SOLAR ENERGY; SOLAR POWER GENERATION; STRONTIUM COMPOUNDS; TEMPERATURE DISTRIBUTION; THERMAL CYCLING; TITANIUM COMPOUNDS;

CATALYTIC HYDROGEN EVOLUTION; CONDUCTION BAND LEVELS; ENVIRONMENTAL-FRIENDLY; HYDROGEN GENERATIONS; NEAR ROOM TEMPERATURE; PHOTOCATALYTIC HYDROGEN EVOLUTION; PHOTOCATALYTIC HYDROGEN PRODUCTION; TEMPERATURE FLUCTUATION;

HYDROGEN PRODUCTION;

BARIUM; CATALYSIS; CATALYST; EFFICIENCY MEASUREMENT; HYDROGEN; INORGANIC COMPOUND; NANOMATERIAL; NANOPARTICLE; REDUCTION; SOLAR POWER; TEMPERATURE EFFECT; THERMAL CONDUCTIVITY;

EID: 85051265342 PISSN: 17545692 EISSN: 17545706 Source Type: Journal
DOI: 10.1039/c8ee01016a Document Type: Article

Times cited : (184)

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