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[交流] [2017-06-30]Advanced Functional Nanostructures for Enhanced Electrocatalysis

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截稿日期:

2017.06.30

Owing to the depleting petroleum supplies and climate change, the research and development of renewable energy are of vital signicance in the coming decades. Various advanced technologies for sustainable energy conversion and storage like rechargeable metal-air batteries and water splitting are the subject of both extensive fundamental and utilitarian studies. e key fact of these technologies is a series of electrochemical reactions, including oxygen reduction reaction (ORR), oxygen evolution reaction (OER), hydrogen oxidation reaction (HOR), hydrogen evolution reaction (HER), carbon dioxide reduction reaction (CORR), and ammonia oxidation reaction (AOR), wherein the kinetics of these signicant electrochemical processes has a considerable impact on the output performance of the aforementioned clean energy-related technologies as a whole. Accordingly, the rational design of electrocatalysts that exhibit considerable electroactivity and robust durability is greatly promising.
A diversity of advanced techniques involving synthetic chemistry, nanotechnology, and computational stimulation has been developed to direct the synthesis of e›cient electrocatalysts. In particular, nanostructures featuring large surface areas, high active-site concentration, improvedmass/electron transport, controllable structures, and adjustable electronic structure have received utmost attention. erefore, we invite scientic researchers to contribute original research articles and reviewarticles on advanced functional nanostructures for high-e›ciency electrocatalysis.

Potential topics include but are not limited to the following:
1. Electrocatalysts constructed by metallic or metal-free elements or hybrid systems with diverse nanostructures for electrocatalytic reactions
2. Latest technologies for nanostructuring and measuring
3. Advances in optimizing electrochemical devices
4. Theoretical stimulations to reveal reaction mechanisms
5. Review articles on recent advances of aforementioned topics

Authors can submit their manuscripts through the Manuscript Tracking System at
https://mts.hindawi.com/submit/journals/jnt/afnee/.

Lead Guest Editor
Yun P. Zhu, University of Adelaide,
Adelaide, Australia
yun-pei.zhu@adelaide.edu.au

Guest Editors
Zhao-Qing Liu, Guangzhou University,
Guangzhou, China
lzqgzu@gzhu.edu.cn

Tao Ling, Tianjin University, Tianjin,
China
lingt04@tju.edu.cn

Lei Liu, Shandong University of Science
and Technology, Qingdao, China
slicel@163.com

Yu Jing,Wilhelm-Ostwald-Institut für
Physikalische undeoretische
Chemie, Leipzig, Germany
jyuuu@hotmail.com

Manuscript Due
Friday, 30 June 2017
First Round of Reviews
Friday, 22 September 2017
Publication Date
Friday, 17 November 2017

[ Last edited by 杈杈 on 2017-1-16 at 12:05 ]

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