Metal chalcogenide nanorings for temperature-strain dual-mode sensing

Xiaoshan Wang; Jinhao Zhang; Peiyuan Liu; Danlin Wei; Daobo Tian; Shipeng Liu; Qian Chen; Jiacheng Cao; Zhiwei Wang; Xiao Huang

doi:10.1039/d3nr05561b

Metal chalcogenide nanorings for temperature-strain dual-mode sensing

Xiaoshan Wang, Jinhao Zhang, Peiyuan Liu, Danlin Wei, Daobo Tian, Shipeng Liu, Qian Chen, Jiacheng Cao, Zhiwei Wang, Xiao Huang

柔性电子（未来科技）学院|先进材料研究院

科研成果: 期刊稿件 › 文章 › 同行评审

2 引用（Scopus）

摘要

Most metal chalcogenides exhibit layered structures and anisotropic morphologies such as nanosheets, nanoplates, and nanotubes, as well as nanosheet-assembled nanoflowers. Unconventional morphologies such as nanorings may bring appealing properties to functional materials, but they have not been realized with metal chalcogenides. Herein, we report that Sn_0.2Mo_0.8S₂ nanorings with a mixed 1T/2H phase were synthesized by etching SnS₂ cores from Sn_1−xMo_xS₂/SnS₂ lateral heterostructures. Flexible electronic sensors based on these Sn_0.2Mo_0.8S₂ nanorings exhibited excellent temperature and strain sensing performance, with a negative temperature coefficient of resistance of −0.013 °C⁻¹ and a minimum detectable strain of 0.09%. In addition, the dual-functional flexible electronic sensors with easy fabrication and good wearability showed great promise for tracking human activities and monitoring inapparent health-related signals.

源语言	英语
页（从-至）	3484-3491
页数	8
期刊	Nanoscale
卷	16
期	7
DOI	https://doi.org/10.1039/d3nr05561b
出版状态	已出版 - 8 1月 2024

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10.1039/d3nr05561b

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title = "Metal chalcogenide nanorings for temperature-strain dual-mode sensing",

abstract = "Most metal chalcogenides exhibit layered structures and anisotropic morphologies such as nanosheets, nanoplates, and nanotubes, as well as nanosheet-assembled nanoflowers. Unconventional morphologies such as nanorings may bring appealing properties to functional materials, but they have not been realized with metal chalcogenides. Herein, we report that Sn0.2Mo0.8S2 nanorings with a mixed 1T/2H phase were synthesized by etching SnS2 cores from Sn1−xMoxS2/SnS2 lateral heterostructures. Flexible electronic sensors based on these Sn0.2Mo0.8S2 nanorings exhibited excellent temperature and strain sensing performance, with a negative temperature coefficient of resistance of −0.013 °C−1 and a minimum detectable strain of 0.09%. In addition, the dual-functional flexible electronic sensors with easy fabrication and good wearability showed great promise for tracking human activities and monitoring inapparent health-related signals.",

author = "Xiaoshan Wang and Jinhao Zhang and Peiyuan Liu and Danlin Wei and Daobo Tian and Shipeng Liu and Qian Chen and Jiacheng Cao and Zhiwei Wang and Xiao Huang",

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T1 - Metal chalcogenide nanorings for temperature-strain dual-mode sensing

AU - Wang, Xiaoshan

AU - Zhang, Jinhao

AU - Liu, Peiyuan

AU - Wei, Danlin

AU - Tian, Daobo

AU - Liu, Shipeng

AU - Chen, Qian

AU - Cao, Jiacheng

AU - Wang, Zhiwei

AU - Huang, Xiao

PY - 2024/1/8

Y1 - 2024/1/8

N2 - Most metal chalcogenides exhibit layered structures and anisotropic morphologies such as nanosheets, nanoplates, and nanotubes, as well as nanosheet-assembled nanoflowers. Unconventional morphologies such as nanorings may bring appealing properties to functional materials, but they have not been realized with metal chalcogenides. Herein, we report that Sn0.2Mo0.8S2 nanorings with a mixed 1T/2H phase were synthesized by etching SnS2 cores from Sn1−xMoxS2/SnS2 lateral heterostructures. Flexible electronic sensors based on these Sn0.2Mo0.8S2 nanorings exhibited excellent temperature and strain sensing performance, with a negative temperature coefficient of resistance of −0.013 °C−1 and a minimum detectable strain of 0.09%. In addition, the dual-functional flexible electronic sensors with easy fabrication and good wearability showed great promise for tracking human activities and monitoring inapparent health-related signals.

AB - Most metal chalcogenides exhibit layered structures and anisotropic morphologies such as nanosheets, nanoplates, and nanotubes, as well as nanosheet-assembled nanoflowers. Unconventional morphologies such as nanorings may bring appealing properties to functional materials, but they have not been realized with metal chalcogenides. Herein, we report that Sn0.2Mo0.8S2 nanorings with a mixed 1T/2H phase were synthesized by etching SnS2 cores from Sn1−xMoxS2/SnS2 lateral heterostructures. Flexible electronic sensors based on these Sn0.2Mo0.8S2 nanorings exhibited excellent temperature and strain sensing performance, with a negative temperature coefficient of resistance of −0.013 °C−1 and a minimum detectable strain of 0.09%. In addition, the dual-functional flexible electronic sensors with easy fabrication and good wearability showed great promise for tracking human activities and monitoring inapparent health-related signals.

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U2 - 10.1039/d3nr05561b

DO - 10.1039/d3nr05561b

M3 - 文章

C2 - 38269423

AN - SCOPUS:85183614025

SN - 2040-3364

VL - 16

SP - 3484

EP - 3491

JO - Nanoscale

JF - Nanoscale

IS - 7

ER -

Metal chalcogenide nanorings for temperature-strain dual-mode sensing

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