Back to Search Start Over

PLQ−sim: A computational tool for simulating photoluminescence quenching dynamics in organic donor/acceptor blends.

Authors :
Benatto, Leandro
Mesquita, Omar
Roman, Lucimara S.
Capaz, Rodrigo B.
Candiotto, Graziâni
Koehler, Marlus
Source :
Computer Physics Communications. Mar2024, Vol. 296, pN.PAG-N.PAG. 1p.
Publication Year :
2024

Abstract

Photoluminescence Quenching Simulator (PLQ−Sim) is a user−friendly software to study the photoexcited state dynamics at the interface between two organic semiconductors forming a blend: an electron donor (D), and an electron acceptor (A). Its main function is to provide substantial information on the photophysical processes relevant to organic photovoltaic and photothermal devices, such as charge transfer state formation and subsequent free charge generation or exciton recombination. From input parameters provided by the user, the program calculates the transfer rates of the D/A blend and employs a kinetic model that provides the photoluminescence quenching efficiency for initial excitation in the donor or acceptor. When calculating the rates, the user can choose to use disorder parameters to better describe the system. In addition, the program was developed to address energy transfer phenomena that are commonly present in organic blends. The time evolution of state populations is also calculated providing relevant information for the user. In this article, we present the theory behind the kinetic model, along with suggestions for methods to obtain the input parameters. A detailed demonstration of the program, its applicability, and an analysis of the outputs are also presented. PLQ−Sim is license free software that can be run via dedicated webserver nanocalc.org or downloading the program executables (for Unix , Windows , and macOS) from the PLQ-Sim repository on GitHub. [ABSTRACT FROM AUTHOR]

Details

Language :
English
ISSN :
00104655
Volume :
296
Database :
Academic Search Index
Journal :
Computer Physics Communications
Publication Type :
Periodical
Accession number :
174758266
Full Text :
https://doi.org/10.1016/j.cpc.2023.109015