4.7 Article

Nitrogen Fixation with Water on Carbon-Nitride-Based Metal-Free Photocatalysts with 0.1% Solar-to-Ammonia Energy Conversion Efficiency

Journal

ACS APPLIED ENERGY MATERIALS
Volume 1, Issue 8, Pages 4169-4177

Publisher

AMER CHEMICAL SOC
DOI: 10.1021/acsaem.8b00829

Keywords

photocatalysis; carbon nitride; nitrogen fixation; ammonia; artificial photosynthesis

Funding

  1. Precursory Research for Embryonic Science and Technology (PRESTO) [JPMJPR1442]
  2. Japan Science and Technology Agency (JST)

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Ammonia (NH3), which is an indispensable chemical, is produced by the Haber Bosch process using H-2 and N-2 under severe reaction conditions. Although photocatalytic N-2 fixation with water under ambient conditions is ideal, all previously reported catalysts show low efficiency. Here, we report that a metal-free organic semiconductor could provide a new basis for photocatalytic N-2 fixation. We show that phosphorus-doped carbon nitride containing surface nitrogen vacancies (PCN-V), prepared by simple thermal condensation of the precursors under H-2, produces NH3 from N-2 with water under visible light irradiation. The doped P atoms promote water oxidation by the photoformed valence-band holes, and the N vacancies promote N-2 reduction by the conduction-band electrons. These phenomena facilitate efficient N-2 fixation with a solar-to-chemical conversion (SCC) efficiency of 0.1%, which is comparable to the average solar-to-biomass conversion efficiency of natural photosynthesis by typical plants. Thus, this metal-free catalyst shows considerable potential as a new method of artificial photosynthesis.

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