Low temperature electrical transport and photoresponsive properties of H-doped MoO3 nanosheets

Juehan Yang; Fangyuan Lu; Yan Li; Shengxue Yang; Renxiong Li; Nengjie Huo; Chao Fan; Zhongming Wei; Jingbo Li; Shu Shen Li

doi:10.1039/c3tc32142h

Low temperature electrical transport and photoresponsive properties of H-doped MoO₃ nanosheets

Juehan Yang
, Fangyuan Lu
, Yan Li
, Shengxue Yang
, Renxiong Li
, Nengjie Huo
, Chao Fan
, Zhongming Wei
, Jingbo Li
, Shu Shen Li

Research output: Contribution to journal › Article › peer-review

30 Scopus citations

Abstract

α-MoO₃ nanosheets were synthesized by a water bath method using ammonium heptamolybdenum tetrahydrate and concentrated nitric acid as precursors. Hydrogen was doped by a chemical reduction in aqueous acidic media, with hydrazine hydrate used as the reducing agent. Temperature dependent resistance showed that the low temperature Peierls transition of H-doped MoO₃ nanosheets breaks below 50 K, and its resistance is satisfied at temperatures lower than 37 K (37-10 K). This phenomenon was induced by thermal disturbance and the dominance of defects in low temperature transport, which was confirmed by photoresponse measurements taken before and after the break of the new phase.

Original language	English
Pages (from-to)	1034-1040
Number of pages	7
Journal	Journal of Materials Chemistry C
Volume	2
Issue number	6
DOIs	https://doi.org/10.1039/c3tc32142h
State	Published - 14 Feb 2014
Externally published	Yes

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title = "Low temperature electrical transport and photoresponsive properties of H-doped MoO3 nanosheets",

abstract = "α-MoO3 nanosheets were synthesized by a water bath method using ammonium heptamolybdenum tetrahydrate and concentrated nitric acid as precursors. Hydrogen was doped by a chemical reduction in aqueous acidic media, with hydrazine hydrate used as the reducing agent. Temperature dependent resistance showed that the low temperature Peierls transition of H-doped MoO3 nanosheets breaks below 50 K, and its resistance is satisfied at temperatures lower than 37 K (37-10 K). This phenomenon was induced by thermal disturbance and the dominance of defects in low temperature transport, which was confirmed by photoresponse measurements taken before and after the break of the new phase.",

author = "Juehan Yang and Fangyuan Lu and Yan Li and Shengxue Yang and Renxiong Li and Nengjie Huo and Chao Fan and Zhongming Wei and Jingbo Li and Li, \{Shu Shen\}",

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T1 - Low temperature electrical transport and photoresponsive properties of H-doped MoO3 nanosheets

AU - Yang, Juehan

AU - Lu, Fangyuan

AU - Li, Yan

AU - Yang, Shengxue

AU - Li, Renxiong

AU - Huo, Nengjie

AU - Fan, Chao

AU - Wei, Zhongming

AU - Li, Jingbo

AU - Li, Shu Shen

PY - 2014/2/14

Y1 - 2014/2/14

N2 - α-MoO3 nanosheets were synthesized by a water bath method using ammonium heptamolybdenum tetrahydrate and concentrated nitric acid as precursors. Hydrogen was doped by a chemical reduction in aqueous acidic media, with hydrazine hydrate used as the reducing agent. Temperature dependent resistance showed that the low temperature Peierls transition of H-doped MoO3 nanosheets breaks below 50 K, and its resistance is satisfied at temperatures lower than 37 K (37-10 K). This phenomenon was induced by thermal disturbance and the dominance of defects in low temperature transport, which was confirmed by photoresponse measurements taken before and after the break of the new phase.

AB - α-MoO3 nanosheets were synthesized by a water bath method using ammonium heptamolybdenum tetrahydrate and concentrated nitric acid as precursors. Hydrogen was doped by a chemical reduction in aqueous acidic media, with hydrazine hydrate used as the reducing agent. Temperature dependent resistance showed that the low temperature Peierls transition of H-doped MoO3 nanosheets breaks below 50 K, and its resistance is satisfied at temperatures lower than 37 K (37-10 K). This phenomenon was induced by thermal disturbance and the dominance of defects in low temperature transport, which was confirmed by photoresponse measurements taken before and after the break of the new phase.

UR - https://www.scopus.com/pages/publications/84892715365

U2 - 10.1039/c3tc32142h

DO - 10.1039/c3tc32142h

M3 - 文章

AN - SCOPUS:84892715365

SN - 2050-7534

VL - 2

SP - 1034

EP - 1040

JO - Journal of Materials Chemistry C

JF - Journal of Materials Chemistry C

IS - 6

ER -

Low temperature electrical transport and photoresponsive properties of H-doped MoO₃ nanosheets

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