Login / Signup

Benchmark performance of low-cost Sb2Se3 photocathodes for unassisted solar overall water splitting.

Wooseok YangJin Hyun KimOliver S HutterLaurie J PhillipsJeiwan TanJaemin ParkHyungsoo LeeJonathan D MajorJae Sung LeeJooho Moon
Published in: Nature communications (2020)
Determining cost-effective semiconductors exhibiting desirable properties for commercial photoelectrochemical water splitting remains a challenge. Herein, we report a Sb2Se3 semiconductor that satisfies most requirements for an ideal high-performance photoelectrode, including a small band gap and favourable cost, optoelectronic properties, processability, and photocorrosion stability. Strong anisotropy, a major issue for Sb2Se3, is resolved by suppressing growth kinetics via close space sublimation to obtain high-quality compact thin films with favourable crystallographic orientation. The Sb2Se3 photocathode exhibits a high photocurrent density of almost 30 mA cm-2 at 0 V against the reversible hydrogen electrode, the highest value so far. We demonstrate unassisted solar overall water splitting by combining the optimised Sb2Se3 photocathode with a BiVO4 photoanode, achieving a solar-to-hydrogen efficiency of 1.5% with stability over 10 h under simulated 1 sun conditions employing a broad range of solar fluxes. Low-cost Sb2Se3 can thus be an attractive breakthrough material for commercial solar fuel production.
Keyphrases
  • low cost
  • visible light
  • quantum dots
  • ionic liquid
  • label free