The High Electron Occupation on Anti-Bond Orbital Induced by the Asymmetric Covalent Structure of C-S-N Enhancing the Oxygen Reduction Reaction-Reference-Cited by-同舟云学术

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The High Electron Occupation on Anti-Bond Orbital Induced by the Asymmetric Covalent Structure of C-S-N Enhancing the Oxygen Reduction Reaction

Published:2024 Issue: Volume: Page:
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Author:

Wu Lin,Ji Chunyu,Liu Zirui,Yang Hao,Li Xueyan,Qiu Feng,Peng Zhili,Liu Qingju,Zhang Longzhou

Publisher

Elsevier BV

Reference45 articles.

1. Iron single atoms on graphene as nonprecious metal catalysts for hightemperature polymer electrolyte membranefuel cells [J];Y Cheng;Adv Sci (Weinh),2019

2. Manganese-assisted annealing produces abundant macropores in a carbon aerogel to enhance its oxygen reduction catalytic activity in zinc-air batteries;Y Pang;ACS Sustainable Chemistry & Engineering

3. Recent Advances on Nonprecious-Metal-Based Bifunctional Oxygen Electrocatalysts for Zinc-Air Batteries;Yao Z-C;Energy & Fuels,2021

4. Progress and perspective of single-atom catalysts for membrane electrode assembly of fuel cells;Z Song;Carbon Energy,2023

5. The race between classical microbial fuel cells, sedimentmicrobial fuel cells, plant-microbial fuel cells, and constructed wetlands-microbial fuel cells: Applications and technology readiness level;Gupta S;Science of the Total Environment,2023

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