| 查看: 643 | 回复: 1 | ||
| 【奖励】 本帖被评价1次,作者victor417增加金币 0.8 个 | ||
[资源]
钠离子电池负极材料最新研究进展-超强异质结的构筑促进钠离子快速传输
|
||
|
近期,湖南大学材料学院在Journal of Chemistry Materials A上报道了通过整合具有不同能带差的两种活性物质,将两者构筑成异质结构用作钠离子的存储。研究证明,两种活性物质的能带差异越大,所构筑异质结构内电场越强,越能促进钠离子在材料内部的快速传输。该材料在50A/g的电流密度下,容量仍高达235mAh/g,电池能在17s内完成充放电过程。该工作为构筑快速离子传输的负极材料提供了有效的设计思路。 Title: Fabrication of strong internal electric field ZnS/Fe9S10 heterostructures for highly efficient sodium ion storage Journal: J. Mater. Chem. A, 2019, DOI: 10.1039/C9TA02388G Abstract: The interfacial properties of electrode materials have a crucial impact on enhancing their charge transfer. However, a deep understanding of this aspect remains elusive. Herein, we provide an effective strategy to manipulate the internal electric field (E-field) of metal sulfide heterostructures to accelerate their Na-ion storage kinetics. To prove this concept, we selected ZnS and Fe9S10 with a large energy bandgap difference as model components with the aim to build a strong E-field at their hetero-interfaces, thus fabricating stable ZnS/Fe9S10 heterostructures for high-rate and high-capacity sodium ion storage. The emerging built-in E-field in the carbon-coated ZnS/Fe9S10 heterostructures can accelerate ion/electron migration rates and facilitate charge transfer behavior by the internal driving force of the E-field, guaranteeing enhanced reaction reversibility and sodium storage kinetics. These engineered heterostructures deliver a high initial coulombic efficiency of 85.3%, a high reversible capacity of 636 mA h g−1 at 500 mA g−1 and stable cycling performance. In particular, they also exhibit superior rate capacities of 295 mA h g−1 at 30 A g−1 and 235 mA h g−1 at 50 A g−1, indicating that this battery can be fully charged within 17 s. More importantly, this design concept can be extended to construct other heterostructures, such as ZnS and Sn2S3. Link: https://pubs.rsc.org/en/content/ ... unauth#!divAbstract |
回复此楼» 本帖附件资源列表
-
欢迎监督和反馈:小木虫仅提供交流平台,不对该内容负责。
本内容由用户自主发布,如果其内容涉及到知识产权问题,其责任在于用户本人,如对版权有异议,请联系邮箱:xiaomuchong@tal.com - 附件 1 : J_Mater_Chem_A_20190429–strong_internal_electric_field_ZnS-Fe9S10_heterostructures.pdf
2019-05-01 01:20:15, 1.73 M
» 猜你喜欢
请问哪里可以有青B申请的本子可以借鉴一下。
已经有4人回复
-
真诚求助:手里的省社科项目结项要求主持人一篇中文核心,有什么渠道能发核心吗
已经有6人回复
-
孩子确诊有中度注意力缺陷
已经有14人回复
-
三甲基碘化亚砜的氧化反应
已经有4人回复
-
请问下大家为什么这个铃木偶联几乎不反应呢
已经有5人回复
-
请问有评职称,把科研教学业绩算分排序的高校吗
已经有5人回复
-
2025冷门绝学什么时候出结果
已经有3人回复
-
天津工业大学郑柳春团队欢迎化学化工、高分子化学或有机合成方向的博士生和硕士生加入
已经有4人回复
-
康复大学泰山学者周祺惠团队招收博士研究生
已经有6人回复
-
AI论文写作工具:是科研加速器还是学术作弊器?
已经有3人回复
» 本主题相关商家推荐: (我也要在这里推广)
简单回复
2019-05-04 13:20
回复
五星好评 顶一下,感谢分享!