Exploring the electronic, optical, and charge transfer properties of ADA-type IDTV-ThIC-based molecules to enhance photovoltaic performance of organic solar cells
Improving the charge mobility and optoelectronic properties of indacenodithiophene-based
small molecule acceptors is a key challenge to improving overall efficiency. In this current …
small molecule acceptors is a key challenge to improving overall efficiency. In this current …
Approach toward low energy loss in symmetrical nonfullerene acceptor molecules inspired by insertion of different π-spacers for developing efficient organic solar …
In this quantum approach, by adding bridge/π-spacer fragments between the donor and
acceptor parts of a newly constructed DF-PCIC (A–D–A type) molecule, it is the aim to …
acceptor parts of a newly constructed DF-PCIC (A–D–A type) molecule, it is the aim to …
Effect of tailoring π-linkers with extended conjugation on the SJ-IC molecule for achieving high V OC and improved charge mobility towards enhanced photovoltaic …
The problem of low efficiency of organic solar cells can be solved by improving the charge
mobility and open circuit voltage of these cells. The current research aims to present the role …
mobility and open circuit voltage of these cells. The current research aims to present the role …
High-efficiency and low-energy-loss organic solar cells enabled by tuning the end group modification of the terthiophene-based acceptor molecules to enhance …
In the current study, six nonfullerene small acceptor molecules were designed by end-group
modification of terminal acceptors. Density functional theory calculations of all designed …
modification of terminal acceptors. Density functional theory calculations of all designed …
A DFT study for improving the photovoltaic performance of organic solar cells by designing symmetric non-fullerene acceptors by quantum chemical modification on …
Minimizing the energy loss and improving the open circuit voltage of organic solar cells is
still a primary concern for scientists working in this field. With the aim to enhance the …
still a primary concern for scientists working in this field. With the aim to enhance the …
End-capped engineering of Quinoxaline core-based non-fullerene acceptor materials with improved power conversion efficiency
Improving the light-harvesting efficiency and boosting open circuit voltage are crucial
challenges for enhancing the efficiency of organic solar cells. This work introduces seven …
challenges for enhancing the efficiency of organic solar cells. This work introduces seven …
Engineering of the Central Core on DBD-Based Materials with Improved Power-Conversion Efficiency by Using the DFT Approach
Developing proficient organic solar cells with improved optoelectronic properties is still a
matter of concern. In the current study, with an aspiration to boost the optoelectronic …
matter of concern. In the current study, with an aspiration to boost the optoelectronic …
Designing Thieno[3,4-c]pyrrole-4,6-dione Core-Based, A2–D–A1–D–A2-Type Acceptor Molecules for Promising Photovoltaic Parameters in Organic Photovoltaic …
Nonfullerene-based organic solar cells can be utilized as favorable photovoltaic and
optoelectronic devices due to their enhanced life span and efficiency. In this research, seven …
optoelectronic devices due to their enhanced life span and efficiency. In this research, seven …
Aided design and molecular regulatory mechanism of non-fused ring acceptors in the framework of A-D1-D2-A molecular systems
M Chen, J Liu, P Song, Y Li - Journal of Molecular Structure, 2025 - Elsevier
Non-fused ring acceptors (NFRAs) have garnered significant attention due to their low cost,
ease of synthesis, and high efficiency. Molecules with asymmetric structures can improve …
ease of synthesis, and high efficiency. Molecules with asymmetric structures can improve …
An approach towards low energy loss by end-capped modification of A2–D–A1–D–A2-type molecules for tuning the photovoltaic properties of organic solar cells
R Ali, S Nadeem, RA Khera, AA AlObaid… - Journal of …, 2023 - World Scientific
In this project, the study is focused on the substitution at determined sites of reference
molecule (R) to enhance optoelectronic properties, which might affect the photovoltaic …
molecule (R) to enhance optoelectronic properties, which might affect the photovoltaic …