Issue 11, 2022

Design of semitransparent tantalum nitride photoanode for efficient and durable solar water splitting

Abstract

Unbiased solar water splitting via a photoelectrochemical–photovoltaic (PEC–PV) tandem device is a promising strategy for efficient, low-cost, and sustainable hydrogen production to address growing energy demands. The bandgap of Ta3N5 is 2.1 eV for a theoretical limit of solar-to-hydrogen (STH) energy conversion efficiency of 15.3%, but the inefficient utilization of photogenerated holes limits the STH efficiency to 7% when Ta3N5 is used as a single photoanode. In addition, the formation of a TaOx insulating layer on the bare Ta3N5 surface caused by the self-photooxidation of the Ta3N5 surfaces leads to the poor stability of the water oxidation reaction. In this study, we fabricated a void-free Ta3N5 planar thin film, originating from metallic Ta deposition by high-power sputtering followed by nitridation in ammonia treatment at high temperature, grown on a transparent GaN/Al2O3 substrate. With the uniform decoration of the Ta3N5 surface with an ultrathin NiFeOx electrocatalyst layer, the semitransparent Ta3N5 photoanode drastically improved the stability and generated a photocurrent of 7.4 mA cm−2 at 1.23 V vs. a reversible hydrogen electrode under simulated AM1.5G solar illumination. Unassisted water splitting by a transparent Ta3N5 photoanode coupled with CuInSe2 PV was demonstrated with an initial STH efficiency of 9%, which is the highest efficiency ever reported among metal oxide/nitride-based PEC–PV tandem cells. With the homogeneous electrocatalyst, the tandem cell achieved the stabilized STH efficiency of 4% up to 2 h of device operation. Using measurements and theoretical modeling, the charge carrier kinetics and transport were determined to identify the most crucial Ta3N5-thin-film parameters for further performance enhancement.

Graphical abstract: Design of semitransparent tantalum nitride photoanode for efficient and durable solar water splitting

Supplementary files

Article information

Article type
Paper
Submitted
01 Шіл. 2022
Accepted
16 Қыр. 2022
First published
07 Қаз. 2022
This article is Open Access
Creative Commons BY-NC license

Energy Environ. Sci., 2022,15, 4761-4775

Design of semitransparent tantalum nitride photoanode for efficient and durable solar water splitting

T. Higashi, H. Nishiyama, V. Nandal, Y. Pihosh, Y. Kawase, R. Shoji, M. Nakabayashi, Y. Sasaki, N. Shibata, H. Matsuzaki, K. Seki, K. Takanabe and K. Domen, Energy Environ. Sci., 2022, 15, 4761 DOI: 10.1039/D2EE02090D

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