Optoelectronic properties of thermally coated tin selenide thin films for photovoltaics

Nisar Ali; Umar Sharif; Naeem Shahzad; Abul Kalam; Abdullah Al-Sehemi; Hussein Alrobei; Amir Khesro

doi:10.1002/er.7402

Optoelectronic properties of thermally coated tin selenide thin films for photovoltaics

Nisar Ali
, Umar Sharif
, Naeem Shahzad
, Abul Kalam
, Abdullah Al-Sehemi
, Hussein Alrobei
, Amir Khesro

Mechanical Engineering

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

1 Scopus citations

Abstract

In this study, 490 nm thin tin selenide thin films were deposited by facile co-evaporation techniques using Sn and Se sources on a clean glass substrate. The thin films were annealed at moderate annealing temperature followed by characterization and analysis. The thin annealed films possess polycrystalline nature and orthorhombic structure with an average grain size of 130 nm. The band gap assessed from absorption spectra for the highly annealed sample was 1.52 eV. The resistivity and sheet resistance were measured with four-probe techniques and the sheet resistance was =1.362 × 10⁴ ohm for the highly annealed film.

Original language	English
Pages (from-to)	3725-3731
Number of pages	7
Journal	International Journal of Energy Research
Volume	46
Issue number	3
DOIs	https://doi.org/10.1002/er.7402
State	Published - 10 Mar 2022

Keywords

annealing
optoelectronics
photovoltaics
tin selenide
XRD

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10.1002/er.7402

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title = "Optoelectronic properties of thermally coated tin selenide thin films for photovoltaics",

abstract = "In this study, 490 nm thin tin selenide thin films were deposited by facile co-evaporation techniques using Sn and Se sources on a clean glass substrate. The thin films were annealed at moderate annealing temperature followed by characterization and analysis. The thin annealed films possess polycrystalline nature and orthorhombic structure with an average grain size of 130 nm. The band gap assessed from absorption spectra for the highly annealed sample was 1.52 eV. The resistivity and sheet resistance were measured with four-probe techniques and the sheet resistance was =1.362 × 104 ohm for the highly annealed film.",

keywords = "annealing, optoelectronics, photovoltaics, tin selenide, XRD",

author = "Nisar Ali and Umar Sharif and Naeem Shahzad and Abul Kalam and Abdullah Al-Sehemi and Hussein Alrobei and Amir Khesro",

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T1 - Optoelectronic properties of thermally coated tin selenide thin films for photovoltaics

AU - Ali, Nisar

AU - Sharif, Umar

AU - Shahzad, Naeem

AU - Kalam, Abul

AU - Al-Sehemi, Abdullah

AU - Alrobei, Hussein

AU - Khesro, Amir

PY - 2022/3/10

Y1 - 2022/3/10

N2 - In this study, 490 nm thin tin selenide thin films were deposited by facile co-evaporation techniques using Sn and Se sources on a clean glass substrate. The thin films were annealed at moderate annealing temperature followed by characterization and analysis. The thin annealed films possess polycrystalline nature and orthorhombic structure with an average grain size of 130 nm. The band gap assessed from absorption spectra for the highly annealed sample was 1.52 eV. The resistivity and sheet resistance were measured with four-probe techniques and the sheet resistance was =1.362 × 104 ohm for the highly annealed film.

AB - In this study, 490 nm thin tin selenide thin films were deposited by facile co-evaporation techniques using Sn and Se sources on a clean glass substrate. The thin films were annealed at moderate annealing temperature followed by characterization and analysis. The thin annealed films possess polycrystalline nature and orthorhombic structure with an average grain size of 130 nm. The band gap assessed from absorption spectra for the highly annealed sample was 1.52 eV. The resistivity and sheet resistance were measured with four-probe techniques and the sheet resistance was =1.362 × 104 ohm for the highly annealed film.

KW - annealing

KW - optoelectronics

KW - photovoltaics

KW - tin selenide

KW - XRD

UR - https://www.scopus.com/pages/publications/85118226625

U2 - 10.1002/er.7402

DO - 10.1002/er.7402

M3 - Article

AN - SCOPUS:85118226625

SN - 0363-907X

VL - 46

SP - 3725

EP - 3731

JO - International Journal of Energy Research

JF - International Journal of Energy Research

IS - 3

ER -

Optoelectronic properties of thermally coated tin selenide thin films for photovoltaics

Abstract

Keywords

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