HardwareX (Sep 2023)

A high-purity gas–solid photoreactor for reliable and reproducible photocatalytic CO2 reduction measurements

  • Nikolaos G. Moustakas,
  • Marcus Klahn,
  • Bastian T. Mei,
  • Anna Pougin,
  • Martin Dilla,
  • Tim Peppel,
  • Simon Ristig,
  • Jennifer Strunk

Journal volume & issue
Vol. 15
p. e00448

Abstract

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Reactions between a gas phase and a solid material are of high importance in the study of alternative ways for energy conversion utilizing otherwise useless carbon dioxide (CO2). The photocatalytic CO2 reduction to hydrocarbon fuels like e.g., methane (CH4) is such a potential candidate process converting solar light into molecular bonds. In this work, the design, construction, and operation of a high-purity gas–solid photoreactor is described. The design aims at eliminating any unwanted carbon-containing impurities and leak points, ensuring the collection of reliable and reproducible data in photocatalytic CO2 reduction measurements. Apart from the hardware design, a detailed experimental procedure including gas analysis is presented, allowing newcomers in the field of gas–solid CO2 reduction to learn the essential basics and valuable tricks. By performing extensive blank measurements (with/without sample and/or light) the true performance of photocatalytic materials can be monitored, leading to the identification of trends and the proposal of possible mechanisms in CO2 photoreduction. The reproducibility of measurements between different versions of the here presented reactor on the ppm level is evidenced.

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