The electrical, thermal, and thermoelectric properties of black phosphorus

Yanli Zhang; Jiahong Wang; Qian Liu; Shuang Gu; Zhengbo Sun; Paul K. Chu; Xuefeng Yu

doi:10.1063/5.0027244

The electrical, thermal, and thermoelectric properties of black phosphorus

Yanli Zhang
, Jiahong Wang^*
, Qian Liu
, Shuang Gu
, Zhengbo Sun
, Paul K. Chu
, Xuefeng Yu^*

^*Corresponding author for this work

Research output: Journal Publications and Reviews › RGC 21 - Publication in refereed journal › peer-review

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Abstract

Black phosphorus (BP) as a two-dimensional semiconductor has attracted tremendous interest in physics, chemistry, biology, and engineering fields. BP has a thickness-dependent bandgap and high carrier mobility, and its puckered honeycomb layer structure with in-plane anisotropy gives rise to unique electrical, thermal, optical, and other properties. These interesting properties provide new opportunities for the design of new devices. The prominent electrical and thermal properties of BP are orthogonal, and the Seebeck coefficients of BP, especially monolayer BP, are large, thus rendering the materials to be desirable in thermoelectric devices. In this Perspective, the recent developments of electrical, thermal, and thermoelectric properties of BP are described. The strategies to tailor the thermoelectric performance are highlighted, aiming at further development and applications in highly efficient thermoelectric devices.

Original language	English
Article number	120903
Number of pages	12
Journal	APL Materials
Volume	8
Issue number	12
Online published	9 Dec 2020
DOIs	https://doi.org/10.1063/5.0027244
Publication status	Published - Dec 2020

Research Keywords

TRANSPORT-PROPERTIES
ELECTRONIC-PROPERTIES
OPTICAL-PROPERTIES
CARRIER MOBILITY
CONDUCTIVITY
PERFORMANCE
TRANSISTORS
ANISOTROPY
STRAIN
SEMICONDUCTOR

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abstract = "Black phosphorus (BP) as a two-dimensional semiconductor has attracted tremendous interest in physics, chemistry, biology, and engineering fields. BP has a thickness-dependent bandgap and high carrier mobility, and its puckered honeycomb layer structure with in-plane anisotropy gives rise to unique electrical, thermal, optical, and other properties. These interesting properties provide new opportunities for the design of new devices. The prominent electrical and thermal properties of BP are orthogonal, and the Seebeck coefficients of BP, especially monolayer BP, are large, thus rendering the materials to be desirable in thermoelectric devices. In this Perspective, the recent developments of electrical, thermal, and thermoelectric properties of BP are described. The strategies to tailor the thermoelectric performance are highlighted, aiming at further development and applications in highly efficient thermoelectric devices.",

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author = "Yanli Zhang and Jiahong Wang and Qian Liu and Shuang Gu and Zhengbo Sun and Chu, \{Paul K.\} and Xuefeng Yu",

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AU - Zhang, Yanli

AU - Wang, Jiahong

AU - Liu, Qian

AU - Gu, Shuang

AU - Sun, Zhengbo

AU - Chu, Paul K.

AU - Yu, Xuefeng

PY - 2020/12

Y1 - 2020/12

N2 - Black phosphorus (BP) as a two-dimensional semiconductor has attracted tremendous interest in physics, chemistry, biology, and engineering fields. BP has a thickness-dependent bandgap and high carrier mobility, and its puckered honeycomb layer structure with in-plane anisotropy gives rise to unique electrical, thermal, optical, and other properties. These interesting properties provide new opportunities for the design of new devices. The prominent electrical and thermal properties of BP are orthogonal, and the Seebeck coefficients of BP, especially monolayer BP, are large, thus rendering the materials to be desirable in thermoelectric devices. In this Perspective, the recent developments of electrical, thermal, and thermoelectric properties of BP are described. The strategies to tailor the thermoelectric performance are highlighted, aiming at further development and applications in highly efficient thermoelectric devices.

AB - Black phosphorus (BP) as a two-dimensional semiconductor has attracted tremendous interest in physics, chemistry, biology, and engineering fields. BP has a thickness-dependent bandgap and high carrier mobility, and its puckered honeycomb layer structure with in-plane anisotropy gives rise to unique electrical, thermal, optical, and other properties. These interesting properties provide new opportunities for the design of new devices. The prominent electrical and thermal properties of BP are orthogonal, and the Seebeck coefficients of BP, especially monolayer BP, are large, thus rendering the materials to be desirable in thermoelectric devices. In this Perspective, the recent developments of electrical, thermal, and thermoelectric properties of BP are described. The strategies to tailor the thermoelectric performance are highlighted, aiming at further development and applications in highly efficient thermoelectric devices.

KW - TRANSPORT-PROPERTIES

KW - ELECTRONIC-PROPERTIES

KW - OPTICAL-PROPERTIES

KW - CARRIER MOBILITY

KW - CONDUCTIVITY

KW - PERFORMANCE

KW - TRANSISTORS

KW - ANISOTROPY

KW - STRAIN

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U2 - 10.1063/5.0027244

DO - 10.1063/5.0027244

M3 - RGC 21 - Publication in refereed journal

SN - 2166-532X

VL - 8

JO - APL Materials

JF - APL Materials

IS - 12

M1 - 120903

ER -

The electrical, thermal, and thermoelectric properties of black phosphorus

Abstract

Research Keywords

Publisher's Copyright Statement

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