Mosaic-structured cobalt nickel thiophosphate nanosheets incorporated N-doped carbon for efficient and stable electrocatalytic water splitting

Mosaic-structured cobalt nickel thiophosphate nanosheets incorporated N-doped carbon for efficient and stable electrocatalytic water splitting

Engineering the nanostructures and compositions of 2D layered metal thiophosphates (MTPs) is significant for extending their applications. Here, a scalable and flexible strategy is presented to prepare single crystalline CoNiPS3 incorporated with N‐doped carbon (CoNiPS3/C) nanosheets (≈16 nm thickne...

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Main Authors: Liang, Qinghua, Zhong, Lixiang, Du, Chengfeng, Zheng, Yun, Luo, Yubo, Xu, Jianwei, Li, Shuzhou, Yan, Qingyu
Other Authors: School of Materials Science and Engineering
Format: Article
Language:English
Published: 2020
Subjects:
Engineering::Materials
2D Nanosheets
DFT Calculations
Online Access:https://hdl.handle.net/10356/143677
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Institution: Nanyang Technological University
Language: English
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spelling sg-ntu-dr.10356-1436772020-09-16T08:23:27Z Mosaic-structured cobalt nickel thiophosphate nanosheets incorporated N-doped carbon for efficient and stable electrocatalytic water splitting Liang, Qinghua Zhong, Lixiang Du, Chengfeng Zheng, Yun Luo, Yubo Xu, Jianwei Li, Shuzhou Yan, Qingyu School of Materials Science and Engineering Engineering::Materials 2D Nanosheets DFT Calculations Engineering the nanostructures and compositions of 2D layered metal thiophosphates (MTPs) is significant for extending their applications. Here, a scalable and flexible strategy is presented to prepare single crystalline CoNiPS3 incorporated with N‐doped carbon (CoNiPS3/C) nanosheets (≈16 nm thickness), which can be further processed into the mosaic‐structured CoNiPS3/C nanosheets (≈6 nm thickness) composed of randomly distributed crystalline nanodomains (≈15 nm diameter) and disordered boundaries (denoted as mosaic CoNiPS3/C nanosheets), and further into separated CoNiPS3/C nanodots (≈4 nm diameter). The initial CoNiPS3/C nanosheeets are prepared by using Co–Ni Prussian‐blue analogue nanoplates as templating precursors. As compared to the initial CoNiPS3/C nanosheets and nanodots, the mosaic CoNiPS3/C nanosheets exhibit plenty of active edge sites, retained crystallinity, and good structural stability. Synergistically, density functional theory calculations reveal that the bimetallic composition results in higher intrinsic activity, better conductivity, and lower kinetic energy barriers for bifunctional oxygen/hydrogen evolution reactions. More importantly, a water‐splitting electrolyzer constructed using the mosaic CoNiPS3/C nanosheets as both cathode and anode achieves 30 mA cm−2 at 1.62 V, which is better than the initial CoNiPS3/C nanosheets (1.69 V) and is comparable to the discreted nanodots (1.58 V). Besides, the mosaic CoNiPS3/C nanosheets show much better electrocatalytic stability than nanodots. Ministry of Education (MOE) 2020-09-16T07:37:26Z 2020-09-16T07:37:26Z 2018 Journal Article Liang, Q., Zhong, L., Du, C., Zheng, Y., Luo, Y., Xu, J., ... Yan, Q. (2018). Mosaic-structured cobalt nickel thiophosphate nanosheets incorporated N-doped carbon for efficient and stable electrocatalytic water splitting. Advanced Functional Materials, 28(43), 1805075-. doi:10.1002/adfm.201805075 1616-3028 https://hdl.handle.net/10356/143677 10.1002/adfm.201805075 43 28 1805075 en Advanced Functional Materials © 2018 Wiley-VCH Verlag GmbH & Co. KGaA, Weinheim. All rights reserved.
institution Nanyang Technological University
building NTU Library
country Singapore
collection DR-NTU
language English
topic Engineering::Materials
2D Nanosheets
DFT Calculations
spellingShingle Engineering::Materials
2D Nanosheets
DFT Calculations
Liang, Qinghua
Zhong, Lixiang
Du, Chengfeng
Zheng, Yun
Luo, Yubo
Xu, Jianwei
Li, Shuzhou
Yan, Qingyu
Mosaic-structured cobalt nickel thiophosphate nanosheets incorporated N-doped carbon for efficient and stable electrocatalytic water splitting
description Engineering the nanostructures and compositions of 2D layered metal thiophosphates (MTPs) is significant for extending their applications. Here, a scalable and flexible strategy is presented to prepare single crystalline CoNiPS3 incorporated with N‐doped carbon (CoNiPS3/C) nanosheets (≈16 nm thickness), which can be further processed into the mosaic‐structured CoNiPS3/C nanosheets (≈6 nm thickness) composed of randomly distributed crystalline nanodomains (≈15 nm diameter) and disordered boundaries (denoted as mosaic CoNiPS3/C nanosheets), and further into separated CoNiPS3/C nanodots (≈4 nm diameter). The initial CoNiPS3/C nanosheeets are prepared by using Co–Ni Prussian‐blue analogue nanoplates as templating precursors. As compared to the initial CoNiPS3/C nanosheets and nanodots, the mosaic CoNiPS3/C nanosheets exhibit plenty of active edge sites, retained crystallinity, and good structural stability. Synergistically, density functional theory calculations reveal that the bimetallic composition results in higher intrinsic activity, better conductivity, and lower kinetic energy barriers for bifunctional oxygen/hydrogen evolution reactions. More importantly, a water‐splitting electrolyzer constructed using the mosaic CoNiPS3/C nanosheets as both cathode and anode achieves 30 mA cm−2 at 1.62 V, which is better than the initial CoNiPS3/C nanosheets (1.69 V) and is comparable to the discreted nanodots (1.58 V). Besides, the mosaic CoNiPS3/C nanosheets show much better electrocatalytic stability than nanodots.
author2 School of Materials Science and Engineering
author_facet School of Materials Science and Engineering
Liang, Qinghua
Zhong, Lixiang
Du, Chengfeng
Zheng, Yun
Luo, Yubo
Xu, Jianwei
Li, Shuzhou
Yan, Qingyu
format Article
author Liang, Qinghua
Zhong, Lixiang
Du, Chengfeng
Zheng, Yun
Luo, Yubo
Xu, Jianwei
Li, Shuzhou
Yan, Qingyu
author_sort Liang, Qinghua
title Mosaic-structured cobalt nickel thiophosphate nanosheets incorporated N-doped carbon for efficient and stable electrocatalytic water splitting
title_short Mosaic-structured cobalt nickel thiophosphate nanosheets incorporated N-doped carbon for efficient and stable electrocatalytic water splitting
title_full Mosaic-structured cobalt nickel thiophosphate nanosheets incorporated N-doped carbon for efficient and stable electrocatalytic water splitting
title_fullStr Mosaic-structured cobalt nickel thiophosphate nanosheets incorporated N-doped carbon for efficient and stable electrocatalytic water splitting
title_full_unstemmed Mosaic-structured cobalt nickel thiophosphate nanosheets incorporated N-doped carbon for efficient and stable electrocatalytic water splitting
title_sort mosaic-structured cobalt nickel thiophosphate nanosheets incorporated n-doped carbon for efficient and stable electrocatalytic water splitting
publishDate 2020
url https://hdl.handle.net/10356/143677
_version_ 1681056204314378240

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