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Micro and Nanosystems


ISSN (Print): 1876-4029
ISSN (Online): 1876-4037

Research Article

Determination of Enriched Quantum Efficiency with InGaN/GaN Multiple Quantum Well Solar Cells

Author(s): Shingmila Hungyo, Khomdram J. Singh, Dickson Warepam and Rudra S. Dhar*

Volume 13, Issue 4, 2021

Published on: 21 August, 2020

Page: [418 - 425] Pages: 8

DOI: 10.2174/1876402912999200821133828

Price: $65


Background: Energy is a major concern in every aspect of our life. Solar energy is a renewable environmentally friendly source of energy. Therefore, solar cells are vastly studied with different technology and different material.

Objective: The main objective here is to analyze InGaN material for solar cell applications with less complicated structures of MQW solar cells on revising solar cell with the recombination structure, I-V characteristics, and its efficiency.

Methods: The device is simulated using SILVACO ATLAS, where the well and the barrier layers are inserted in the depletion region employing material combination of InGaN / GaN, which increases the solar cell performance parameter. This work focuses on the photogeneration rate, recombination in the active region as well as its current-voltage relation from the simulation.

Results: With the increase in the number of QW periods in the active region of the device, the photovoltaic parameters especially conversion efficiency, increases significantly. Under space AM0 solar illumination, the cell efficiency increases up to 8.2 % for 20 MQWs with 20% Indium content for the InGaN/GaN structure. It enhances the External Quantum Efficiency (EQE) upto 36% at nearly 380nm wavelength range near the UV region.

Conclusion: The modelled structure is efficiently simulated using TCAD SILVACO ATLAS, and the material Indium Gallium Nitride semiconductor shows an excellent solar cell performance with high solar radiation. It is also observed that with an increase in the number of well periods the solar cell performance increases, which demonstrates the feasibility of Indium Gallium Nitride solar cell with an additional MQW period as a power source.

Keywords: Indium gallium nitride, Multiple Quantum Well (MQW), TCAD (Technology Computer Aided Design), space solar cell, photovoltaic parameters, solar energy.

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