Nanoengineered Advanced Materials for Enabling Hydrogen Economy: Functionalized Graphene–Incorporated Cupric Oxide Catalyst for Efficient Solar Hydrogen Production (Global Challenges 3/2020),Global Challenges

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Nanoengineered Advanced Materials for Enabling Hydrogen Economy: Functionalized Graphene–Incorporated Cupric Oxide Catalyst for Efficient Solar Hydrogen Production (Global Challenges 3/2020)
Global Challenges ( IF 4.4 ) Pub Date : 2020-03-02 , DOI: 10.1002/gch2.202070031
Goutam Kumar Dalapati _{1,

2,

3,

4} , Saeid Masudy‐Panah _{5,

6} , Roozbeh Siavash Moakhar ₇ , Sabyasachi Chakrabortty ₈ , Siddhartha Ghosh ₁ , Ajay Kushwaha ₉ , Reza Katal ₁₀ , Chin Sheng Chua ₂ , Gong Xiao _{5,

6} , Sudhiranjan Tripathy ₂ , Seeram Ramakrishna ₄

Affiliation

Department of PhysicsSRM University – AP Amaravati Andhra Pradesh 522502 India
Institute of Materials Research and EngineeringA*STAR (Agency for Science, Technology and Research) 2 Fusionopolis Way; Innovis, #08‐03 Singapore 138634 Singapore
School of Engineering & InnovationThe Open University Milton Keynes MK7 6AA UK
Center for Nanofibers and NanotechnologyFaculty of EngineeringNational University of Singapore Singapore 117576 Singapore
Energy Electronic Systems (LEES)Singapore‐MIT Alliance for Research and Technology (SMART) Centre 1 CREATE Way, #09‐01/02 CREATE Tower Singapore 138602 Singapore
Electrical and Computer EngineeringNational University of Singapore Singapore 119260 Singapore
Department of Materials Science and EngineeringSharif University of Technology Tehran 11155‐9466 Iran
Department of ChemistrySRM University – AP Amaravati Andhra Pradesh 522502 India
Discipline of Metallurgy Engineering and Materials ScienceIndian Institute of Technology Indore Simrol Indore Madhya Pradesh 453552 India
Department of Civil & Environmental EngineeringNational University of Singapore Singapore 119260 Singapore

In article number 1900087, Goutam Kumar Dalapati and co‐workers develop a low cost, stable and efficient photocathode for sun‐light driven hydrogen generation. Copper oxide (CuO) functionalized with graphene enhances hydrogen generation through water splitting in presence of solar radiation. Hydrogen generation in this way is an effective path to address global challenges and can be used to minimize global warming by promoting hydrogen based green economy.

中文翻译：

用于实现氢经济的纳米工程先进材料：功能化石墨烯结合氧化铜催化剂可有效生产太阳能（全球挑战3/2020）

Goutam Kumar Dalapati和他的同事们在编号1900087中开发了一种低成本，稳定且高效的光阴极，用于太阳光驱动的制氢。用石墨烯官能化的氧化铜（CuO）通过在太阳辐射存在下的水分解来增强氢的产生。以这种方式产生氢是应对全球挑战的有效途径，可用于通过促进基于氢的绿色经济来最大程度地减少全球变暖。

更新日期：2020-03-02

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