In this paper, a intermediate compound of solar cell materials and plant activator was reported. 4-hexyl aniline as the raw material, through a series of reactions to get a new compound E and characterized by 1H NMR and IR. This compound has excellent solubility in common solvents and as a promising candidate of synthesizing organic solar cell materials and plant activator.
The synthesis and characterization of a new molecular dyad consisting of a benzodithiophene-based push-pull linked to a fullerene derivative through the use of the well-known Copper Azide-Alkyne Huisgen Cycloaddition (CuAAC) reaction is reported herein. Once fully characterized at the molecular level, single component organic solar cells were fabricated to demonstrate photon-to-electron conversion, and therefore the design principle.
The regioregularity and band gap of P3HT, an organic solar cell donor polymer, were improved. Oxidative coupling enhanced regioregularity, voltammetric p-doping broadened the optical absorption band and a molar mass increase reduced the band gap.