Litcius/Paper detail

Molecular designing of high‐performance 3D star‐shaped electron acceptors containing a truxene core for nonfullerene organic solar cells

Muhammad Usman Khan, Muhammad Yasir Mehboob, Riaz Hussain, Rafia Fatima, Muhammad Tahir, Muhammad Khalid, Ataualpa Albert Carmo Braga

2020Journal of Physical Organic Chemistry112 citationsDOI

Abstract

Abstract End‐capped modification is a convenient strategy to enhance the photovoltaic and electronic properties of fullerene‐free acceptor materials. In this report, five novel star‐shaped three‐dimensional acceptor molecules FH1–FH5 are designed by end‐capped modifications of recently synthesized star‐shaped Tr (Hex) 6 ‐3BR molecule. The enhancement in the photovoltaic, electronic, and photophysical properties of designed molecules is examined with the aid of density functional theory (DFT) and time‐dependent DFT (TDDFT). The MPW1PW91 functional in conjunction with 6‐31G(d,p) basis set of DFT/TDDFT is employed in order to compute various key parameters including frontier molecular orbitals analysis, absorption maxima, and binding energy along with transition density matrix, open‐circuit voltage, excitation energy, charge mobilities (electron and hole reorganizational energies), density of states, charge transfer with respect to HOMO PTB7‐Th –LUMO acceptor , and dipole moment. Red shifting in absorption spectra of acceptor materials is the most important reason for increasing efficiency of organic solar cells. A red shift in absorption spectra of all designed molecules is noted with low excitation energy. Designed molecules FH1–FH5 exhibit narrow energy gap with high electron mobility as compared with Tr (Hex) 6 ‐3BR molecule. Among all designed molecules, FH4 is proved to be the best candidate for fullerene free organic solar cells because of narrow band gap, high charge mobility, high dipole moment, low excitation, and binding energy along with a red shift in absorption spectrum. Moreover, all designed molecules offer high current charge density as compared with Tr (Hex) 6 ‐3BR. These results indicate that all star‐shaped conceptual molecules ( FH1–FH5 ) are ideal aspirants for construction of future organic solar cells.

Topics & Concepts

Time-dependent density functional theoryOrganic solar cellChemistryDensity functional theoryHOMO/LUMOAcceptorFullereneAbsorption spectroscopyMoleculeBand gapChemical physicsComputational chemistryOptoelectronicsMaterials sciencePhysicsOrganic chemistryCondensed matter physicsQuantum mechanicsPolymerOrganic Electronics and PhotovoltaicsFullerene Chemistry and ApplicationsConducting polymers and applications