JoVE
JoVE
Faculty Resource Center
Research
Behavior
Biochemistry
Biology
Bioengineering
Cancer Research
Chemistry
Developmental Biology
Engineering
Environment
Genetics
Immunology and Infection
Medicine
Neuroscience
JoVE Journal
JoVE Encyclopedia of Experiments
JoVE Chrome Extension
Education
Biology
Chemistry
Clinical
Engineering
Environmental Sciences
Pharmacology
Physics
Psychology
Statistics
JoVE Core
JoVE Science Education
JoVE Lab Manual
JoVE Quiz
JoVE Business
Videos Mapped to your Course
Authors
Librarians
High Schools
About
Sign-In
Sign In
Contact Us
Research
JoVE Journal
JoVE Encyclopedia of Experiments
Education
JoVE Core
JoVE Science Education
JoVE Lab Manual
High Schools
EN
EN - English
CN - 中文
DE - Deutsch
ES - Español
KR - 한국어
IT - Italiano
FR - Français
PT - Português
EN
EN - English
CN - 中文
DE - Deutsch
ES - Español
KR - 한국어
IT - Italiano
FR - Français
PT - Português
Close
Research
Behavior
Biochemistry
Bioengineering
Biology
Cancer Research
Chemistry
Developmental Biology
Engineering
Environment
Genetics
Immunology and Infection
Medicine
Neuroscience
Products
JoVE Journal
JoVE Encyclopedia of Experiments
Education
Biology
Chemistry
Clinical
Engineering
Environmental Sciences
Pharmacology
Physics
Psychology
Statistics
Products
JoVE Core
JoVE Science Education
JoVE Lab Manual
JoVE Quiz
JoVE Business
Videos Mapped to Your Course
Teacher Resources
Get in Touch
Instant Trial
Log In
EN
EN - English
CN - 中文
DE - Deutsch
ES - Español
KR - 한국어
IT - Italiano
FR - Français
PT - Português
Journal
/
Chemistry
/
微重力环境下高效太阳能氢气生产的实验方法
JoVE Journal
Chemistry
A subscription to JoVE is required to view this content.
Sign in or start your free trial.
JoVE Journal
Chemistry
Experimental Methods for Efficient Solar Hydrogen Production in Microgravity Environment
Please note that all translations are automatically generated.
Click here for the English version.
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
•
Katharina Brinkert
2
,
Ömer Akay
,
Matthias H. Richter
4
,
Janine Liedtke
,
Katherine T. Fountaine
6
,
Hans-Joachim Lewerenz
,
Michael Giersig
8
1
Division of Chemistry and Chemical Engineering
,
California Institute of Technology
,
2
European Space Agency/ ESTEC
,
3
Department of Physics
,
Freie Universitat Berlin
,
4
Applied Physics and Sensors
,
Brandenburg University of Technology Cottbus
,
5
Resnick Sustainability Institute
,
California Institute of Technology
,
6
NG Next
,
Northrop Grumman Corporation
,
7
Division of Engineering and Applied Science and Joint Center for Artificial Photosynthesis
,
California Institute of Technology
,
8
International Academy of Optoelectronics at Zhaoqing
,
South China Normal University
Chapters
00:04
Title
00:51
Preparation of p-InP (p-type Indium Phosphide) Photoelectrodes
02:38
Fabrication of Rhodium Nanostructures
04:23
Photoelectrodeposition of Rhodium Nanoparticles
05:22
Photoelectrochemical Experiments in Microgravity
08:43
Results: p-InP Surface Modification
10:43
Conclusion
Summary
Automatic Translation
English (Original)
العربية (Arabic)
中文 (Chinese)
Nederlands (Dutch)
français (French)
Deutsch (German)
עברית (Hebrew)
italiano (Italian)
日本語 (Japanese)
한국어 (Korean)
português (Portuguese)
русский (Russian)
español (Spanish)
Türkçe (Turkish)
Automatic Translation
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
Microgravity
Solar Hydrogen Production
Nanostructured Photoelectrodes
Electrochemical Gas Bubbles
Catalyst Hotspots
Indium Phosphide
Shadow Nanosphere Lithography
Rhodium Nanostructures
Photoelectrochemical Conditioning
Article
Embed
ADD TO PLAYLIST
Usage Statistics
Related Videos
薄层色谱(TLC)分离和植物提取物的生物测定识别抗菌化合物
金属硅酸盐分区在高压和高温:实验方法和协议,以抑制高亲铁元素元素夹杂物
超临界氮处理的活性多孔材料的净化
上成膜钙钛矿型混合制造方法,电子结构和太阳能电池性能的影响
用高压液相色谱法提取和分析儿茶酚胺神经递质及其代谢物的简便方法
缓释碱源负载碱性过氧化氢体系中苎麻纤维的提取
利用二次 Nanoelectrospray 电离耦合高分辨质谱的实时呼吸分析
利用
SbCl
3
-硫脲复合溶液处理锑
2
3
沉积物对锑
2
S
3
敏化太阳能电池性能影响的关键因素
无铅光伏吸收剂的溶液处理 "银铋碘" 三元薄膜
纳米金刚石的生物激发多巴胺表面改性及其对银纳米粒子的还原
Read Article