Impact of Ag doping on the structural, optical, and photovoltaic properties of MAPbI2Br thin films

Saddam Hussain; Muhammad I Khan; Muhammad Atif; Margarita Rodríguez-Rodríguez; Manuel J Pellegrini-Cervantes

doi:10.1093/ce/zkae111

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Impact of Ag doping on the structural, optical, and photovoltaic properties of MAPbI2Br thin films

更新时间：2026-02-06

- Impact of Ag doping on the structural, optical, and photovoltaic properties of MAPbI2Br thin films
- Impact of Ag doping on the structural, optical, and photovoltaic properties of MAPbI2Br thin films
- 清洁能源（英文） 2025年第2期
- 作者机构：
  
  1. Department of Engineering Sciences, Universidad Autónoma de Sinaloa, Fuente de Poseidón y Prol
  2. Department of Physics, The University of Lahore
  3. Department of Physics and Astronomy, College of Science, King Saud University
- 作者简介：
- 基金信息：
- DOI：10.1093/ce/zkae111
  中图分类号：
- 纸质出版：2025
- 稿件说明：
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Saddam Hussain, Muhammad I Khan, Muhammad Atif, 等. Impact of Ag doping on the structural, optical, and photovoltaic properties of MAPbI2Br thin films[J]. 清洁能源（英文）, 2025,(2).

Saddam Hussain, Muhammad I Khan, Muhammad Atif, Margarita Rodríguez-Rodríguez, Manuel J Pellegrini-Cervantes, Impact of Ag doping on the structural, optical, and photovoltaic properties of MAPbI2Br thin films, Clean Energy, Volume 9, Issue 2, April 2025, Pages 132–139, https://doi.org/10.1093/ce/zkae111
Saddam Hussain, Muhammad I Khan, Muhammad Atif, 等. Impact of Ag doping on the structural, optical, and photovoltaic properties of MAPbI2Br thin films[J]. 清洁能源（英文）, 2025,(2). DOI： 10.1093/ce/zkae111.

Saddam Hussain, Muhammad I Khan, Muhammad Atif, Margarita Rodríguez-Rodríguez, Manuel J Pellegrini-Cervantes, Impact of Ag doping on the structural, optical, and photovoltaic properties of MAPbI2Br thin films, Clean Energy, Volume 9, Issue 2, April 2025, Pages 132–139, https://doi.org/10.1093/ce/zkae111 DOI：

摘要

Using the spray pyrolysis process

the work shows the production of pristine and 6% Ag-doped methylammonium lead iodide bromide (MAPbI2Br) film. Through X-ray diffraction analysis

it was found that Ag doping led to a significant increase in grain size to 29.64 nm

alongside reductions in dislocation line density to 5.39 × 1014 m−2 and d-spacing to 3.18 Å

while maintaining the native cubic crystal structure of MAPbI2Br. This research demonstrates a reduction in deep-level trap states with Ag doping

along with a significant narrowing of the band gap to 1.91 eV in the 6% Ag-doped MAPbI2Br. Moreover

the refractive index and extinction coefficient increased to 2.54 and 2.13

respectively. Regarding solar cell performance

all cells demonstrated encouraging outcomes; still

the 6% Ag-doped cell distinguished itself with a fill factor of 0.82

an open-circuit voltage of 1.07 V

an outstanding short-circuit current density of 11.31 mA/cm²

and an efficiency of 10.03%. These results highlight the effectiveness of Ag doping in improving perovskite solar cell technology

marking a notable progress in this field.

Abstract

Using the spray pyrolysis process

the work shows the production of pristine and 6% Ag-doped methylammonium lead iodide bromide (MAPbI2Br) film. Through X-ray diffraction analysis

it was found that Ag doping led to a significant increase in grain size to 29.64 nm

alongside reductions in dislocation line density to 5.39 × 1014 m−2 and d-spacing to 3.18 Å

while maintaining the native cubic crystal structure of MAPbI2Br. This research demonstrates a reduction in deep-level trap states with Ag doping

along with a significant narrowing of the band gap to 1.91 eV in the 6% Ag-doped MAPbI2Br. Moreover

the refractive index and extinction coefficient increased to 2.54 and 2.13

respectively. Regarding solar cell performance

all cells demonstrated encouraging outcomes; still

the 6% Ag-doped cell distinguished itself with a fill factor of 0.82

an open-circuit voltage of 1.07 V

an outstanding short-circuit current density of 11.31 mA/cm²

and an efficiency of 10.03%. These results highlight the effectiveness of Ag doping in improving perovskite solar cell technology

marking a notable progress in this field.

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