Prospects of novel CdZnTe thin film solar cells from numerical analysis

M. N. Imamzai; M. J. Rashid; N. A. Khan; Q. Huda; M. Akhtaruzzaman; K. Sopian; N. Amin

doi:10.1109/ICGET.2014.6966677

Prospects of novel CdZnTe thin film solar cells from numerical analysis

M. N. Imamzai, M. J. Rashid, N. A. Khan, Q. Huda, M. Akhtaruzzaman, K. Sopian, N. Amin

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

2 Citations (Scopus)

Abstract

The efficiency of CdTe based solar cell can be increased using ternary CdZnTe material as absorber layer. Cd_1-xZn_xTe has tunable bandgap depending on the composition. In this work the bandgap of CdZnTe layer (1.57 eV) which is in the optimum range, can be achieved with Zn composition of x=0.1. First the carrier concentration of absorber layer in the baseline case is increased then the thicknesses of absorber layer and window layer in the conventional baseline case are reduced and optimized. Finally an optimized cell structure is proposed. After optimization, the total thickness of the baseline case cell is reduced by factor four and results high efficiency. The cell structure in both baseline case and modified cell is: (SnO₂/CdS/CdZnTe/Back Contact), however some material parameters are different. The performance parameters are found better in the optimized cell structure. We also investigated the effect of ZnO buffer layer and the operating temperature on the performance parameters.

Original language	English
Title of host publication	2014 2nd International Conference on Green Energy and Technology, ICGET 2014
Publisher	Institute of Electrical and Electronics Engineers Inc.
Pages	126-131
Number of pages	6
ISBN (Electronic)	9781479966400
DOIs	https://doi.org/10.1109/ICGET.2014.6966677
Publication status	Published - 2014 Nov 24
Externally published	Yes
Event	2014 2nd International Conference on Green Energy and Technology, ICGET 2014 - Dhaka, Bangladesh Duration: 2014 Sept 5 → 2014 Sept 6

Publication series

Name	2014 2nd International Conference on Green Energy and Technology, ICGET 2014

Other

Other	2014 2nd International Conference on Green Energy and Technology, ICGET 2014
Country/Territory	Bangladesh
City	Dhaka
Period	14/9/5 → 14/9/6

Keywords

AMPS-1D
Bandgap
CdZnTe Solar Cells
Efficiency
Thin Film Solar Cells

ASJC Scopus subject areas

Renewable Energy, Sustainability and the Environment
Environmental Chemistry
Environmental Engineering
Management, Monitoring, Policy and Law

UN SDGs

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

Access to Document

10.1109/ICGET.2014.6966677

Cite this

Imamzai, M. N., Rashid, M. J., Khan, N. A., Huda, Q., Akhtaruzzaman, M., Sopian, K., & Amin, N. (2014). Prospects of novel CdZnTe thin film solar cells from numerical analysis. In 2014 2nd International Conference on Green Energy and Technology, ICGET 2014 (pp. 126-131). [6966677] (2014 2nd International Conference on Green Energy and Technology, ICGET 2014). Institute of Electrical and Electronics Engineers Inc.. https://doi.org/10.1109/ICGET.2014.6966677

Prospects of novel CdZnTe thin film solar cells from numerical analysis. / Imamzai, M. N.; Rashid, M. J.; Khan, N. A. et al.

2014 2nd International Conference on Green Energy and Technology, ICGET 2014. Institute of Electrical and Electronics Engineers Inc., 2014. p. 126-131 6966677 (2014 2nd International Conference on Green Energy and Technology, ICGET 2014).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

Imamzai, MN, Rashid, MJ, Khan, NA, Huda, Q, Akhtaruzzaman, M, Sopian, K & Amin, N 2014, Prospects of novel CdZnTe thin film solar cells from numerical analysis. in 2014 2nd International Conference on Green Energy and Technology, ICGET 2014., 6966677, 2014 2nd International Conference on Green Energy and Technology, ICGET 2014, Institute of Electrical and Electronics Engineers Inc., pp. 126-131, 2014 2nd International Conference on Green Energy and Technology, ICGET 2014, Dhaka, Bangladesh, 14/9/5. https://doi.org/10.1109/ICGET.2014.6966677

Imamzai MN, Rashid MJ, Khan NA, Huda Q, Akhtaruzzaman M, Sopian K et al. Prospects of novel CdZnTe thin film solar cells from numerical analysis. In 2014 2nd International Conference on Green Energy and Technology, ICGET 2014. Institute of Electrical and Electronics Engineers Inc. 2014. p. 126-131. 6966677. (2014 2nd International Conference on Green Energy and Technology, ICGET 2014). doi: 10.1109/ICGET.2014.6966677

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title = "Prospects of novel CdZnTe thin film solar cells from numerical analysis",

abstract = "The efficiency of CdTe based solar cell can be increased using ternary CdZnTe material as absorber layer. Cd1-xZnxTe has tunable bandgap depending on the composition. In this work the bandgap of CdZnTe layer (1.57 eV) which is in the optimum range, can be achieved with Zn composition of x=0.1. First the carrier concentration of absorber layer in the baseline case is increased then the thicknesses of absorber layer and window layer in the conventional baseline case are reduced and optimized. Finally an optimized cell structure is proposed. After optimization, the total thickness of the baseline case cell is reduced by factor four and results high efficiency. The cell structure in both baseline case and modified cell is: (SnO2/CdS/CdZnTe/Back Contact), however some material parameters are different. The performance parameters are found better in the optimized cell structure. We also investigated the effect of ZnO buffer layer and the operating temperature on the performance parameters.",

keywords = "AMPS-1D, Bandgap, CdZnTe Solar Cells, Efficiency, Thin Film Solar Cells",

author = "Imamzai, {M. N.} and Rashid, {M. J.} and Khan, {N. A.} and Q. Huda and M. Akhtaruzzaman and K. Sopian and N. Amin",

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doi = "10.1109/ICGET.2014.6966677",

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AU - Imamzai, M. N.

AU - Rashid, M. J.

AU - Khan, N. A.

AU - Huda, Q.

AU - Akhtaruzzaman, M.

AU - Sopian, K.

AU - Amin, N.

PY - 2014/11/24

Y1 - 2014/11/24

N2 - The efficiency of CdTe based solar cell can be increased using ternary CdZnTe material as absorber layer. Cd1-xZnxTe has tunable bandgap depending on the composition. In this work the bandgap of CdZnTe layer (1.57 eV) which is in the optimum range, can be achieved with Zn composition of x=0.1. First the carrier concentration of absorber layer in the baseline case is increased then the thicknesses of absorber layer and window layer in the conventional baseline case are reduced and optimized. Finally an optimized cell structure is proposed. After optimization, the total thickness of the baseline case cell is reduced by factor four and results high efficiency. The cell structure in both baseline case and modified cell is: (SnO2/CdS/CdZnTe/Back Contact), however some material parameters are different. The performance parameters are found better in the optimized cell structure. We also investigated the effect of ZnO buffer layer and the operating temperature on the performance parameters.

AB - The efficiency of CdTe based solar cell can be increased using ternary CdZnTe material as absorber layer. Cd1-xZnxTe has tunable bandgap depending on the composition. In this work the bandgap of CdZnTe layer (1.57 eV) which is in the optimum range, can be achieved with Zn composition of x=0.1. First the carrier concentration of absorber layer in the baseline case is increased then the thicknesses of absorber layer and window layer in the conventional baseline case are reduced and optimized. Finally an optimized cell structure is proposed. After optimization, the total thickness of the baseline case cell is reduced by factor four and results high efficiency. The cell structure in both baseline case and modified cell is: (SnO2/CdS/CdZnTe/Back Contact), however some material parameters are different. The performance parameters are found better in the optimized cell structure. We also investigated the effect of ZnO buffer layer and the operating temperature on the performance parameters.

KW - AMPS-1D

KW - Bandgap

KW - CdZnTe Solar Cells

KW - Efficiency

KW - Thin Film Solar Cells

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ER -

Prospects of novel CdZnTe thin film solar cells from numerical analysis

Abstract

Publication series

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Keywords

ASJC Scopus subject areas

UN SDGs

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