材料科学
石墨烯
纳米晶
阳极
氧化物
电池(电)
涂层
离子
钠
钠离子电池
纳米技术
无机化学
化学工程
冶金
电极
物理化学
量子力学
法拉第效率
功率(物理)
化学
物理
工程类
作者
Litao Yan,Gen Chen,Swagotom Sarker,Stephanie Richins,Huiqiang Wang,Weichuan Xu,Xianhong Rui,Hongmei Luo
标识
DOI:10.1021/acsami.6b06516
摘要
Ultrafine niobium oxide nanocrystals/reduced graphene oxide (Nb2O5 NCs/rGO) was demonstrated as a promising anode material for sodium ion battery with high rate performance and high cycle durability. Nb2O5 NCs/rGO was synthesized by controllable hydrolysis of niobium ethoxide and followed by heat treatment at 450 °C in flowing forming gas. Transmission electron microscopy images showed that Nb2O5 NCs with average particle size of 3 nm were uniformly deposited on rGO sheets and voids among Nb2O5 NCs existed. The architecture of ultrafine Nb2O5 NCs anchored on a highly conductive rGO network can not only enhance charge transfer and buffer the volume change during sodiation/desodiation process but also provide more active surface area for sodium ion storage, resulting in superior rate and cycle performance. Ex situ XPS analysis revealed that the sodium ion storage mechanism in Nb2O5 could be accompanied by Nb(5+)/Nb(4+) redox reaction and the ultrafine Nb2O5 NCs provide more surface area to accomplish the redox reaction.
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