Light and electric field induced unusual large-scale charge separation in hybrid semiconductor objects | Zendy

Ambrose A. Melvin | Zendy; Eric Lebraud | Zendy; Patrick Garrigue | Zendy; Alexander Kuhn | Zendy

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Light and electric field induced unusual large-scale charge separation in hybrid semiconductor objects

Author(s) -

Ambrose A. Melvin,

Eric Lebraud,

Patrick Garrigue,

Alexander Kuhn

Publication year - 2020

Publication title -

physical chemistry chemical physics

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 1.053

H-Index - 239

eISSN - 1463-9084

pISSN - 1463-9076

DOI - 10.1039/d0cp03262j

Subject(s) - electric field , semiconductor , separation (statistics) , charge (physics) , optoelectronics , materials science , scale (ratio) , chemical physics , physics , computer science , quantum mechanics , machine learning

Separation of electric charges is the most crucial phenomenon in natural photosynthesis, and is also extremely important for many artificial energy conversion systems based on semiconductors. The usual roadblock in this context is the fast recombination of electrons and holes. Here we demonstrate that the synergy of light and electric fields allows separating very efficiently electric charges over an unusually large distance in TiO2. The generated internal electric field can also be used to shuttle electrons simultaneously to the two opposite sides of a hybrid TiO2-polyaniline object. This counterintuitive behavior is based on the combination of the principles of bipolar electrochemistry and semi-conductor physics.

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