Journal
SYNTHETIC METALS
Volume 247, Issue -, Pages 10-17Publisher
ELSEVIER SCIENCE SA
DOI: 10.1016/j.synthmet.2018.11.004
Keywords
Photoelectrochemistry; Organic semiconductor; Polymer nanoparticle; P3HT: PCBM bulk-heterojunction; Solar hydrogen generation; Mini-Emulsion
Funding
- Natural Sciences and Engineering Research Council of Canada
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Photo-assisted hydrogen evolution is achieved on photocathodes comprising of nanoparticles of poly(3-hexylthiophene) (npP3HT) and nanoparticles of phenyl-C61-butyric acid methyl ester (npPCBM) onto which ultralow loadings of Pt nanoparticles are deposited. The nanoparticles, npP3HT and npPCBM, are prepared individually via miniemulsion using surfactants of opposite head group polarity. Aqueous dispersions of npP3HT:npPCBM, devoid of organic solvent, are cast conformally onto ITO-coated glass to yield water-insoluble bulk-heterojunction films. Pt (1 mu g/cm(2)) catalyst is deposited photoelectrochemically onto ITO/npP3HT:npPCBM photocathodes and found to nucleate preferentially on PCBM nanoparticles. ITO/npP3HT:npPCBM/Pt photocathodes produce 65 mu A/cm(2) photocurrent under 100 mW/cm(2) of visible light at 0.0 V-sHE and liberate H-2 gas. The photocurrents observed for electrodes prepared using npP3HT:npPCBM are twice as large, and the onset potential is similar to 0.4 V more positive than analogous photocathodes cast from nanoparticles each comprising an intimate blend of P3HT and PCBM. These are encouraging results for large scale synthesis of organic photoelectrochemical devices, given the simplicity of the photoelectrode, i.e., prepared from aqueous solutions and devoid of vacuum-deposited films such as charge transport layers and protective films.
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