Synthesis and Characterizations of CH3NH3PbI3:ZnS Microrods for   Optoelectronic Applications

Mohammad Tanvir Ahmed; Shariful Islam; Muhammad Shahriar Bashar; Md.; Abul Hossain; Farid Ahmed

arXiv:2109.13068·physics.app-ph·February 17, 2022

Synthesis and Characterizations of CH3NH3PbI3:ZnS Microrods for Optoelectronic Applications

Mohammad Tanvir Ahmed, Shariful Islam, Muhammad Shahriar Bashar, Md., Abul Hossain, Farid Ahmed

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TL;DR

This paper reports the synthesis of CH3NH3PbI3-ZnS microrods using a one-step spin coating method, highlighting how ZnS incorporation alters the bandgap for potential optoelectronic uses.

Contribution

It introduces a novel synthesis approach for perovskite-ZnS microrods and demonstrates bandgap tuning through ZnS incorporation.

Findings

01

ZnS incorporation causes bandgap variation in the visible range

02

Successful synthesis of CH3NH3PbI3-ZnS microrods via spin coating

03

Potential application in optoelectronic devices

Abstract

Organometallic perovskite is one of the potential materials in the various optoelectronic research fields. This research work demonstrates the synthesis of CH3NH3PbI3-ZnS microrods via one-step spin coating for optoelectronic applications. Incorporation of ZnS in the perovskite material caused bandgap variation in the visible wavelength range.

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