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微重力环境下高效太阳能氢气生产的实验方法
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Chimica
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JoVE Journal Chimica
Experimental Methods for Efficient Solar Hydrogen Production in Microgravity Environment
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微重力环境下高效太阳能氢气生产的实验方法

DOI:
10.3791/59122-v

11:38 min

December 03, 2019

, , , , , ,
1Division of Chemistry and Chemical Engineering,California Institute of Technology, 2European Space Agency/ ESTEC, 3Department of Physics,Freie Universitat Berlin, 4Applied Physics and Sensors,Brandenburg University of Technology Cottbus, 5Resnick Sustainability Institute,California Institute of Technology, 6NG Next,Northrop Grumman Corporation, 7Division of Engineering and Applied Science and Joint Center for Artificial Photosynthesis,California Institute of Technology, 8International Academy of Optoelectronics at Zhaoqing,South China Normal University

Capitoli

  • 00:04Titolo
  • 00:51Preparation of p-InP (p-type Indium Phosphide) Photoelectrodes
  • 02:38Fabrication of Rhodium Nanostructures
  • 04:23Photoelectrodeposition of Rhodium Nanoparticles
  • 05:22Photoelectrochemical Experiments in Microgravity
  • 08:43Results: p-InP Surface Modification
  • 10:43Conclusion

Summary

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最近在不来梅下降塔微重力环境中的光电半电池中实现了高效的太阳能-氢生产。这里,我们报告制造半导体电催化剂装置的实验程序,在落体胶囊的实验设置的细节和自由落体期间的实验序列。

Tags

MicrogravitySolar Hydrogen ProductionNanostructured PhotoelectrodesElectrochemical Gas BubblesCatalyst HotspotsIndium PhosphideShadow Nanosphere LithographyRhodium NanostructuresPhotoelectrochemical Conditioning

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