A detailed description of the proposed triboelectric nanogenerator based on an organic semiconductor tribopositive polymer (MAP1-18) and its electrical energy generating performance.
This article presents the synthesis of the first EDOT-based RAFT chain transfer agent and a new family of multifunctional PEDOT-block copolymers (PEDOT-b-PMMA, PEDOT-b-PSS and PEDOT-b-PNIPAM) for different bioelectronic applications e.g. OECTs.
The relationship between the morphology of electrogenerated conducting polymer dendrites with the chemical composition of their environment and the adaptability of evolving polymers to water-based conditions for bio-inspired electronics are studied.
Strategic incorporation of sulfur and selenium into the molecular backbone enables effective regulation of crystallinity. Ternary devices exhibit significantly enhanced Voc and FF, resulting in high PCE.
Porphyrins with optimized di-alkoxy-thiophene side chains enable high-efficiency binary and ternary OSCs; sidechain engineering and PC61BM incorporation synergistically enhance charge transport, suppress recombination and boost device stability.