Electrical and Optical Properties of γ-SnSe: A New Ultra-narrow Band Gap Material

Noy Zakay; Adi Schlesinger; Uri Argaman; Long Nguyen; Nitzan Maman; Bar Koren; Meital Ozeri; Guy Makov; Yuval Golan; Doron Azulay

doi:10.1021/acsami.2c22134

Electrical and Optical Properties of γ-SnSe: A New Ultra-narrow Band Gap Material

Noy Zakay
, Adi Schlesinger
, Uri Argaman
, Long Nguyen
, Nitzan Maman
, Bar Koren
, Meital Ozeri
, Guy Makov
, Yuval Golan
, Doron Azulay

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

17 Scopus citations

Abstract

We describe the unusual properties of γ-SnSe, a new orthorhombic binary phase in the tin monoselenide system. This phase exhibits an ultranarrow band gap under standard pressure and temperature conditions, leading to high conductivity under ambient conditions. Density functional calculations identified the similarity and difference between the new γ-SnSe phase and the conventional α-SnSe based on the electron localization function. Very good agreement was obtained for the band gap width between the band structure calculations and the experiment, and insight provided for the mechanism of reduction in the band gap. The unique properties of this material may render it useful for applications such as thermal imaging devices and solar cells.

Original language	English
Pages (from-to)	15668-15675
Number of pages	8
Journal	ACS Applied Materials and Interfaces
Volume	15
Issue number	12
DOIs	https://doi.org/10.1021/acsami.2c22134
State	Published - 29 Mar 2023

Keywords

SnSe
electrical properties
solution deposition
thin films
ultranarrow band gap

ASJC Scopus subject areas

General Materials Science

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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10.1021/acsami.2c22134

Cite this

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title = "Electrical and Optical Properties of γ-SnSe: A New Ultra-narrow Band Gap Material",

abstract = "We describe the unusual properties of γ-SnSe, a new orthorhombic binary phase in the tin monoselenide system. This phase exhibits an ultranarrow band gap under standard pressure and temperature conditions, leading to high conductivity under ambient conditions. Density functional calculations identified the similarity and difference between the new γ-SnSe phase and the conventional α-SnSe based on the electron localization function. Very good agreement was obtained for the band gap width between the band structure calculations and the experiment, and insight provided for the mechanism of reduction in the band gap. The unique properties of this material may render it useful for applications such as thermal imaging devices and solar cells.",

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T2 - A New Ultra-narrow Band Gap Material

AU - Zakay, Noy

AU - Schlesinger, Adi

AU - Argaman, Uri

AU - Nguyen, Long

AU - Maman, Nitzan

AU - Koren, Bar

AU - Ozeri, Meital

AU - Makov, Guy

AU - Golan, Yuval

AU - Azulay, Doron

PY - 2023/3/29

Y1 - 2023/3/29

N2 - We describe the unusual properties of γ-SnSe, a new orthorhombic binary phase in the tin monoselenide system. This phase exhibits an ultranarrow band gap under standard pressure and temperature conditions, leading to high conductivity under ambient conditions. Density functional calculations identified the similarity and difference between the new γ-SnSe phase and the conventional α-SnSe based on the electron localization function. Very good agreement was obtained for the band gap width between the band structure calculations and the experiment, and insight provided for the mechanism of reduction in the band gap. The unique properties of this material may render it useful for applications such as thermal imaging devices and solar cells.

AB - We describe the unusual properties of γ-SnSe, a new orthorhombic binary phase in the tin monoselenide system. This phase exhibits an ultranarrow band gap under standard pressure and temperature conditions, leading to high conductivity under ambient conditions. Density functional calculations identified the similarity and difference between the new γ-SnSe phase and the conventional α-SnSe based on the electron localization function. Very good agreement was obtained for the band gap width between the band structure calculations and the experiment, and insight provided for the mechanism of reduction in the band gap. The unique properties of this material may render it useful for applications such as thermal imaging devices and solar cells.

KW - SnSe

KW - electrical properties

KW - solution deposition

KW - thin films

KW - ultranarrow band gap

UR - https://www.scopus.com/pages/publications/85150456830

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JO - ACS Applied Materials and Interfaces

JF - ACS Applied Materials and Interfaces

IS - 12

ER -

Electrical and Optical Properties of γ-SnSe: A New Ultra-narrow Band Gap Material

Abstract

Keywords

ASJC Scopus subject areas

UN SDGs

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