Piper longum extract-mediated green synthesis of porous Cu₂O:Mo microspheres and their superior performance as active anode material in lithium-ion batteries

Kumar, Paskalis Sahaya Murphin; Al-Muhtaseb, Ala'a H.; Kumar, Gopalakrishnan; Vinu, Ajayan; Cha, Wangsoo; Villanueva Cab, Julio; Pal, Umapada; Kumar Krishnan, Siva

Title: Piper longum extract-mediated green synthesis of porous Cu₂O:Mo microspheres and their superior performance as active anode material in lithium-ion batteries
Creator: Kumar, Paskalis Sahaya Murphin; Al-Muhtaseb, Ala'a H.; Kumar, Gopalakrishnan; Vinu, Ajayan; Cha, Wangsoo; Villanueva Cab, Julio; Pal, Umapada; Kumar Krishnan, Siva
Relation: ACS Sustainable Chemistry & Engineering Vol. 8, Issue 38, p. 14557-14567
Publisher Link: http://dx.doi.org/10.1021/acssuschemeng.0c05067
Publisher: American Chemical Society
Resource Type: journal article
Date: 2020
Description: Fabrication of nano- and microstructure-based anodes capable of accommodating the lithiation-induced strain, high specific capacity, and longer cycling stability is the principal challenge for developing next-generation lithium-ion batteries (LIBs) with higher energy density. Herein, we report a green route for fabricating porous molybdenum-doped cuprous oxide (Cu₂O:Mo) microspheres of high specific surface area. The porous Cu₂O:Mo microspheres have been utilized as active anode materials in LIBs, revealing excellent electrochemical performance. The electrodes fabricated with the porous Cu₂O:Mo microspheres yielded outstanding Li-ion uptake performance, with a specific capacity of 1128 mAh g^–1 at 0.1 Ag^–1 and enhanced rate performance, and cycling stability (1082 mAh g^–1 at 0.1 Ag^–1 after 100 charge–discharge cycles). Enhanced specific capacity, stable cycling stability, and excellent rate capability of the fabricated electrodes indicate the porous Cu₂O:Mo microspheres are potential anode material for fabricating next-generation high-performance LIBs. The synthetic approach adapted for fabricating the porous Cu₂O:Mo microspheres is facile, relatively greener, and low-cost, which can be utilized for fabricating other metal oxide-based porous microstructures for application in energy storage devices.
Subject: Cu₂O:mo microspheres; porous structure; green synthesis; anode material; lithium-ion batteries; SDG 7; Sustainable Development Goals
Identifier: http://hdl.handle.net/1959.13/1452668
Identifier: uon:44482
Identifier: ISSN:2168-0485
Language: eng
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