Materials and systems for unassisted photoelectrochemical solar fuels production (Conference Presentation)

Jae Sung Lee

doi:10.1117/12.2238401

3 November 2016 Materials and systems for unassisted photoelectrochemical solar fuels production (Conference Presentation)

Jae Sung Lee

Author Affiliations +

Proceedings Volume 9935, Solar Hydrogen and Nanotechnology XI; 993504 (2016) https://doi.org/10.1117/12.2238401
Event: SPIE Optics + Photonics for Sustainable Energy, 2016, San Diego, California, United States

Abstract

About 400 semiconductor solids are known to have photocatalytic activity for water splitting. Yet there is no single material that could satisfy all the requirements for desired photocatalysts: i) suitable band gap energy (1.7 eV< Eg < 2.3 eV) for high efficiency, ii) proper band position for reduction and/or oxidation of water, iii) long-term stability in aqueous solutions, iv) low cost, v) high crystallinity, and vi) high conductivity. Hence, in the selection of photocatalytic materials, we better start from intrinsically stable materials made of earth-abundant elements. The band bap energy is also the primary consideration to absorb ample amount of solar energy of wide wavelength spectrum. It sets the limit of theoretically maximum efficiency and it could also be extended by band engineering techniques. Upon selection of the candidate materials, we can also modify the materials for full utilization their potentials. The main path of efficiency loss in PEC water splitting process is recombination of photoelectrons and holes. We discuss the material designs including i) p-n heterojunction photoanodes for effective electron-hole separation, ii) electron highway to facilitate interparticle electron transfer, iii) metal or anion doping to improve conductivity of the semiconductor and to extend the range of light absorption, iv) one-dimensional nanomaterials to secure a short hole diffusion distance and vectoral electron transfer, and v) loading co-catalysts for facile charge separation. High efficiency has been demonstrated for all these examples due to efficient electron-hole separation. Finally, total systems for unassisted solar fuel production are demonstrated.

Conference Presentation

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Jae Sung Lee "Materials and systems for unassisted photoelectrochemical solar fuels production (Conference Presentation)", Proc. SPIE 9935, Solar Hydrogen and Nanotechnology XI, 993504 (3 November 2016); https://doi.org/10.1117/12.2238401

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KEYWORDS

Semiconductors

Solar energy

Water splitting

Chemical elements

Crystals

Energy efficiency

Heterojunctions

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