Improving the charge mobility and optoelectronic properties of indacenodithiophene-based
small molecule acceptors is a key challenge to improving overall efficiency. In this current …

This research project centralized modeling and DFT analysis of reference (BTTR) and
intended chromophores (BTTM1-BTTM5) based on benzotrithiophene (BTT) core to render …

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 …

Non-fused ring-based OSCs are an excellent choice, which is attributed to their low cost and
flexibility in applications. However, developing efficient and stable non-fused ring-based …

In recent years, development in organic solar cells speeds up and performance continuously
increases. From the last few years, machine learning gains fame among scientists who are …

This quantum mechanical study focuses on the designing of twelve (MPAM1–MPAM12)
bithieno thiophene (BTTI) central core-based small molecules to explore optoelectronic …

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

Chrysene core containing fused ring acceptor materials have remarkable efficiency for high
performance organic solar cells. Therefore, present study has been carried out with the aim …

Molecular engineering of azaBODIPY based molecule was done to construct four novel
small photoactive materials (SM1-SM4) by varying terminal thiophene spaced acceptors for …

A new stream of donor-π-acceptor (D-π-A) type arylborane-arylamine based donor
contributors namely (BN1, BN2, BN3, BN4, BN5) have been drafted by substituting the …