Journal
ACS ENERGY LETTERS
Volume 1, Issue 2, Pages 454-463Publisher
AMER CHEMICAL SOC
DOI: 10.1021/acsenergylett.6b00197
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Funding
- CompuNet
- Istituto Italiano di Tecnologia
- European Community (OLIMPIA) [FP7-PEOPLE-212-ITN 316832]
- FET Collaborative Project (PHOCS) [309223]
- Telethon - Italy foundation [GGP12033, GGP14022]
- Fondazione Cariplo [2013-0738]
- King Abdullah University of Science and Technology
- ONR-Global [N62909-15-1-2003]
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Hybrid devices employing organic semiconductors interfaced with an aqueous solution represent a new frontier in bioelectronics and energy applications. Understanding of the energetics and photoinduced processes occurring at the organic/water interface is fundamental for further progress. Here, we investigate the interfacial electronic structure of poly-3-hexylthiophene (P3HT) sandwiched between an indium tin oxide (ITO) electrode and a liquid water electrolyte. The aqueous solution is found to polarize the polymer outermost layers, which together with the polymer p-(photo) doping by dissolved oxygen localizes photogenerated electrons at the P3HT/water interface, while holes can be transferred to the ITO electrode. Under illumination, the polymer/water interface is negatively charged, attracting positive ions from the electrolyte solution and perturbing the ion distribution in the aqueous solution. The observed mechanism is of general character and could underlie the behavior of a variety of devices characterized by an organic/water interface, such as prosthetic devices for artificial vision and organic-based systems for photoelectrochemical applications.
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