Efficient ternary active layer materials for organic photovoltaics
In recent years, ternary organic solar cells (OSCs) emerged as a potential candidate in
photovoltaic-technology to constantly refresh the devices' power conversion efficiency …
photovoltaic-technology to constantly refresh the devices' power conversion efficiency …
Elucidating Charge Carrier Dynamics in Perovskite‐Based Tandem Solar Cells
Recently, multijunction tandem solar cells (TSCs) have presented high power conversion
efficiency and revealed their immense potential in photovoltaic evolution. It is demonstrated …
efficiency and revealed their immense potential in photovoltaic evolution. It is demonstrated …
Designing of silolothiophene-linked triphenylamine-based hole transporting materials for perovskites and donors for organic solar cells-A DFT study
Si-OMeTPA is receiving a lot of interest as potential hole transport materials in perovskite
solar cells (PSCs) because of their wide range of energy tuning, strong absorption capacity …
solar cells (PSCs) because of their wide range of energy tuning, strong absorption capacity …
How does bridging core modification alter the photovoltaic characteristics of triphenylamine‐based hole transport materials? Theoretical understanding and prediction
MRSA Janjua - Chemistry–A European Journal, 2021 - Wiley Online Library
Perovskite solar cells have gained immense interest from researchers owing to their good
photophysical properties, low‐cost production, and high power conversion efficiencies. Hole …
photophysical properties, low‐cost production, and high power conversion efficiencies. Hole …
Quantum chemical approach of donor− π–acceptor based arylborane–arylamine macrocycles with outstanding photovoltaic properties toward high-performance …
A theoretical quantum chemical investigation of D− π–A conjugated molecules based on
arylborane–arylamine is proposed with the motive of suggesting new organic materials for …
arylborane–arylamine is proposed with the motive of suggesting new organic materials for …
Efficient tuning of triphenylamine-based donor materials for high-efficiency organic solar cells
Small molecular donors (SMDs) manifest promising photovoltaic performance and rapid
progress in solar cells community. Herein, we investigate high-performance triphenylamine …
progress in solar cells community. Herein, we investigate high-performance triphenylamine …
[HTML][HTML] Influence of end-capped engineering on 3-dimenional star-shaped triphenylamine-based donor materials for efficient organic solar cells
Abstract Star-shaped-triphenylamine-based (TPA) hole transporting materials (HTMs) are
considered an up-and-coming candidate for developing efficient organic solar cells (OSCs) …
considered an up-and-coming candidate for developing efficient organic solar cells (OSCs) …
Development of non-fused acceptor materials with 3D-Interpenetrated structure for stable and efficient organic solar cells
The modification of end-capped acceptors of a molecule is an efficient strategy for novel
solar cells. In this line, we have tailored and explored eight novel molecules for possible …
solar cells. In this line, we have tailored and explored eight novel molecules for possible …
Molecular engineering of anthracene core-based hole-transporting materials for organic and perovskite photovoltaics
Anthracene core-based hole-transporting material containing TIPs (triisopropylsilylacetylene
) has been spotlighted as potential donors for perovskite solar cells (SCs) due to their …
) has been spotlighted as potential donors for perovskite solar cells (SCs) due to their …
Fused ring pyrrolo [3, 2-b] pyrrole-based tilde-shaped acceptor molecules for highly efficient organic solar cells
Tilde-shaped materials based on pyrrolo [3, 2-b] pyrrole (PP) have attracted a lot of interest
as potential acceptors for organic solar cells (OSCs) because of their wide range of energy …
as potential acceptors for organic solar cells (OSCs) because of their wide range of energy …