Construction of ternary Sn/SnO_(2)/nitrogen-doped carbon superstructures as anodes for advanced lithium-ion batteries  被引量:1

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作  者:Zizhou Shen Xiaotian Guo Hongye Ding Dianheng Yu Yihao Chen Nana Li Huijie Zhou Songtao Zhang Jun Wu Huan Pang 

机构地区:[1]School of Chemistry and Chemical Engineering, Yangzhou University, Yangzhou, 225009, China [2]Interdisciplinary Materials Research Center, Institute for Advanced Study, Chengdu University, Chengdu, 610106, China

出  处:《Nano Research》2024年第11期9721-9727,共7页纳米研究(英文版)

基  金:supported by the National Natural Science Foundation of China(No.52371240);Natural Science Foundation of Jiangsu Province(No.BK20230556);China Postdoctoral Science Foundation(No.2022M722686);Jiangsu Funding Program for Excellent Postdoctoral Talent(No.2023ZB701).

摘  要:Pristine tin (Sn) and tin dioxide (SnO_(2)) have sparked wide interest owing to their abundant resources and superior theoretical capacity. Nevertheless, the obvious volume expansion effect upon cycling and undesirable conductivity of Sn-based materials lead to undesirable specific capacity. In this work, a nanostructured Sn/SnO_(2)/nitrogen-doped carbon (NC) superstructure was prepared through a facile electrospray-carbonization strategy. The Sn/SnO_(2) nanoparticles (NPs) were uniformly dispersed in a spherical NC matrix, which prevented the volume expansion and aggregation of NPs and facilitated the ion diffusion and charge transfer kinetics. When the optimized Sn/SnO_(2)/NC superstructures were employed as lithium-ion battery anodes, a remarkable specific capacity of 747.9 mAh·g^(−1) over 200 cycles at 0.5 A·g^(−1) and a superior cyclability of 644.1 mAh·g^(−1) over 1000 cycles at 2 A·g^(−1) were obtained. This effective synthetic strategy for synthesizing superstructures provides valuable insights for the advancement of lithium-ion batteries.

关 键 词:tin/tin dioxide nitrogen-doped carbon ELECTROSPRAY lithium-ion batteries 

分 类 号:TM912[电气工程—电力电子与电力传动]

 

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