Insights from Density Functional Theory on the Feasibility of Modified Reactive Dyes as Dye Sensitizers in Dye-Sensitized Solar Cell Applications

Abstract: Recently, reactive dyes have attracted a lot of attention for dye-sensitized solar cell applications. This study endeavors to design dye sensitizers with enhanced efficiency for photovoltaic cells by modifying the reactive blue 5 (RB 5) and reactive brown 10 (RB 10) dyes. Three different strategies were used to design the sensitizers, and their efficiency was compared using the density functional theory (DFT). The optimized geometry, bang gap values, the density of states, electrostatic potential surface analy… Show more

“…This means that the MB-PVDF attained more nature of MB dye rather than PVDF. The HOMO and LUMO energies are related to chemical parameters that provide the details of the reactivity of the molecule (Dindorkar & Yadav 2022). Higher chemical stability can be attained with higher chemical hardness as they reduce the polarizability of the molecules.…”

Investigation on the feasibility of recycled polyvinylidene difluoride polymer from used membranes for removal of methylene blue: experimental and DFT studies

“…This means that the MB-PVDF attained more nature of MB dye rather than PVDF. The HOMO and LUMO energies are related to chemical parameters that provide the details of the reactivity of the molecule (Dindorkar & Yadav 2022). Higher chemical stability can be attained with higher chemical hardness as they reduce the polarizability of the molecules.…”

Investigation on the feasibility of recycled polyvinylidene difluoride polymer from used membranes for removal of methylene blue: experimental and DFT studies

Molecular modeling of mordant black dye for future applications as visible light harvesting materials with anchors: design and excited state dynamics

Untangling the effect of π-conjugation length on the opto-electronic properties of reactive dye-based sensitizer