可控合成用于优异的锂离子/钠离子存储性能的正方形镍硫属化物（NiS 和 NiSe2）纳米板。

Controllable Preparation of Square Nickel Chalcogenide (NiS and NiSe2) Nanoplates for Superior Li/Na Ion Storage Properties.

机构信息

School of Materials Science and Engineering, Nanyang Technological University , 639798 Singapore.

Energy Research Institute@NTU, Nanyang Technological University , Research Techno Plaza, 637553 Singapore.

出版信息

ACS Appl Mater Interfaces. 2016 Sep 28;8(38):25261-7. doi: 10.1021/acsami.6b07300. Epub 2016 Sep 14.

DOI:10.1021/acsami.6b07300

PMID:27559752

Abstract

A facile and bottom-up approach has been presented to prepare 2D Ni-MOFs based on cyanide-bridged hybrid coordination polymers. After thermally induced sulfurization and selenization processes, Ni-MOFs were successfully converted into NiS and NiSe2 nanoplates with carbon coating due to the decomposition of its organic parts. When evaluated as anodes of Li-ion batteries (LIBs) and Na-ion batteries (NIBs), NiS and NiSe2 nanoplates show high specific capacities, excellent rate capabilities, and stable cycling stability. The NiS plates show good Li storage properties, while NiSe2 plates show good Na storage properties as anode materials. The study of the diffusivity of Li(+) in NiS and Na(+) in NiSe2 shows consistent results with their Li/Na storage properties. The 2D MOFs-derived NiS and NiSe2 nanoplates reported in this work explore a new approach for the large-scale synthesis of 2D metal sulfides or selenides with potential applications for advanced energy storage.

摘要

一种简便的自下而上的方法被提出，用于制备基于氰桥混合配位聚合物的二维 Ni-MOFs。经过热诱导的硫化和硒化过程，由于其有机部分的分解，Ni-MOFs 成功地转化为具有碳涂层的 NiS 和 NiSe2 纳米板。当作为锂离子电池 (LIBs) 和钠离子电池 (NIBs) 的阳极时，NiS 和 NiSe2 纳米板表现出高比容量、优异的倍率性能和稳定的循环稳定性。NiS 板表现出良好的锂离子存储性能，而 NiSe2 板作为阳极材料表现出良好的钠离子存储性能。对 Li(+)在 NiS 中的扩散和 Na(+)在 NiSe2 中的扩散的研究结果与其锂离子/钠离子存储性能一致。本工作中报道的二维 MOFs 衍生的 NiS 和 NiSe2 纳米板为具有潜在应用前景的先进储能设备的二维金属硫化物或硒化物的大规模合成探索了一种新方法。

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可控合成用于优异的锂离子/钠离子存储性能的正方形镍硫属化物（NiS 和 NiSe2）纳米板。

Controllable Preparation of Square Nickel Chalcogenide (NiS and NiSe2) Nanoplates for Superior Li/Na Ion Storage Properties.

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