More than 22% power conversion efficiency (PCE) of organic solar cells (OSCs) has been
reported with efficient narrow bandgap acceptor materials as the active layers. And end …

Perovskite solar cells have gained immense interest from researchers owing to their good
photophysical properties, low‐cost production, and high power conversion efficiencies. Hole …

Non-fullerene small molecules must absorb in a broader wavelength range for achieving
high efficiencies. This work presents seven indacenodithiophene core-based acceptor …

Hole transport materials (HTMs), especially dopant-free hole transport materials, are getting
attention in enhancing the power conversion efficiencies and stabilities of organic solar cells …

With the intention of utilizing computational methods to amplify the photovoltaic ability of
organic solar cells, DFT (density functional theory) and TD-DFT (time-dependent density …

In this study, five novel push-pull acceptor molecules with ABDBA arrangement have been
formulated in the quest to boost the organic solar cells (OSCs), with respect to their …

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 …

Anthracene core-based hole-transporting material containing TIPs (triisopropylsilylacetylene
) has been spotlighted as potential donors for perovskite solar cells (SCs) due to their …

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 …

Considering the increased demand and potential of photovoltaic devices in clean,
renewable electrical and hi-tech applications, non-fullerene acceptor (NFA) chromophores …