The Role of Benzothiadiazole Unit in OrganicPolymers on Photocatalytic HydrogenProduction

Organic polymers based on the donor-acceptor structure are a promising class of efficient photocatalysts for solar fuel production. Among these polymers, poly(9,9- dioctylfluorene-alt-1,2,3-benzothiadiazole (PFBT) consisting of fluorene donor and benzothiadiazole acceptor units has shown good photocatalytic activity when it is prepared into polymer dots (Pdots) in water. In this work, we investigate the effect of the chemical environment on the activity of photocatalysis from PFBT Pdots for hydrogen production. This is carried out by comparing the samples with various concentrations of Palladium in different pH conditions and with different sacrificial electron donors (SDs). Moreover, a model compound 1,2,3 -benzothiadiazole di -9,9 -dioctylfluorene (BTDF) is synthesized to investigate the mechanism for protonation of benzothiadiazole and its kinetics in the presence of an organic acid – salicylic acid, by cyclic voltammetry. We experimentally show that benzothiadiazole in BTDF can rapidly react with protons with a fitted value of 0.1 − 5 ∗ 10(10) M−1s−1 which should play a crucial role in the photocatalytic reaction with polymer photocatalyst containing benzothiadiazole such as PFBT Pdots for hydrogen production in acidic conditions. This work gives insights into why organic polymers with benzothiadiazole work efficiently for photocatalytic hydrogen production.