Atomic Structure Modification of Fe‒N‒C Catalysts via Morphology Engineering of Graphene for Enhanced Conversion Kinetics of Lithium–Sulfur Batteries (Adv. Funct. Mater. 19/2022).

Authors :: Kim, Jiheon
Kim, Seong‐Jun
Jung, Euiyeon
Mok, Dong Hyeon
Paidi, Vinod K.
Lee, Jaewoo
Lee, Hyeon Seok
Jeoun, Yunseo
Ko, Wonjae
Shin, Heejong
Lee, Byoung‐Hoon
Kim, Shin‐Yeong
Kim, Hyunjoong
Kim, Ji Hwan
Cho, Sung‐Pyo
Lee, Kug‐Seung
Back, Seoin
Yu, Seung‐Ho
Sung, Yung‐Eun
Hyeon, Taeghwan
Source :: Advanced Functional Materials. 5/9/2022, Vol. 32 Issue 19, p1-1. 1p.
Publication Year :: 2022
Abstract: Electrocatalysis, lithium-sulfur batteries, local coordination environment engineering, M-N-C catalysts, single-atom catalysts Atomic Structure Modification of Fe-N-C Catalysts via Morphology Engineering of Graphene for Enhanced Conversion Kinetics of Lithium-Sulfur Batteries (Adv. Funct. Keywords: electrocatalysis; lithium-sulfur batteries; local coordination environment engineering; M-N-C catalysts; single-atom catalysts EN electrocatalysis lithium-sulfur batteries local coordination environment engineering M-N-C catalysts single-atom catalysts 1 1 1 05/11/22 20220509 NES 220509 B Multi-Metal Oxide Nanoparticles b Multi-metal oxide (MMO) nanomaterials have significant potential to facilitate various demanding (electro)catalytic reactions, but its intrinsic complexity hinders the in-depth understanding of the origin of the catalytic activity. [Extracted from the article]

Subjects :: *LITHIUM sulfur batteries
*ATOMIC structure
*CATALYSTS
*GRAPHENE
*ENGINEERING
*CATALYTIC activity

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