Publication
Article Metrics
Citations
Online attention
Facile and efficient fabrication of Cu1.04Mn0.96O2 nanosheet anodes with superior electrochemical lithium storage capability
DOI:
10.1016/j.cplett.2024.141525
Authors:
Mingyuan
Ye
(Shenyang University of Technology)
,
Ziqi
Zhao
(Shenyang University of Technology)
,
Liying
Liu
(Shenyang University of Technology)
,
Li
Shao
(Diamond Light Source)
,
Li
Liu
(Shenyang University of Technology)
,
Xiaorui
Hao
(Nanjing Tech University)
,
Jiaqi
Lv
(Shenyang University of Technology)
,
Peng-Fei
Wang
(Shenyang University of Technology)
,
Yu-Han
Zhang
(Shenyang University of Technology)
,
Fa-Nian
Shi
(Shenyang University of Technology)
,
Yuhan
Wu
(Shenyang University of Technology; Nankai University)
Co-authored by industrial partner:
No
Type:
Journal Paper
Journal:
Chemical Physics Letters
, VOL 853
State:
Published (Approved)
Published:
October 2024
Abstract: In this work, Cu1.04Mn0.96O2 nanosheets were synthesized via a simple hydrothermal method, and their electrochemical lithium storage properties and reaction mechanisms were investigated. The nanosheet structure effectively promotes electron transfer and shortens the transport path. Additionally, the partial substitution of Cu for Mn decreases the Jahn-Teller distortion of the MnO6 octahedron. Employing as an anode for Li-ion batteries, the specific capacity reached 610.91 mAh g−1 after 100 cycles at a current density of 100 mA g−1.
Diamond Keywords: Batteries; Lithium-ion
Subject Areas:
Energy,
Materials,
Chemistry
Technical Areas:
Added On:
14/08/2024 10:48
Discipline Tags:
Energy Storage
Energy
Physical Chemistry
Energy Materials
Chemistry
Materials Science
Chemical Engineering
Engineering & Technology
Nanoscience/Nanotechnology
Technical Tags: