Carbon-based Photocathode Materials for Solar Hydrogen Production
Sebastiano Bellani, Maria Rosa Antognazza, Francesco Bonaccorso

TL;DR
This paper reviews recent advances in carbon-based photocathodes for solar hydrogen production, emphasizing their design, fabrication, and potential for scalable, efficient water splitting devices.
Contribution
It provides a comprehensive analysis of carbon-based photocathodes, highlighting recent research progress, fabrication methods, and future challenges for sustainable hydrogen generation.
Findings
Carbon-based materials are promising alternatives for photocathodes.
Functional layers improve efficiency and stability.
Scalable fabrication methods are being developed.
Abstract
Hydrogen is considered a promising environmentally friendly energy carrier for replacing traditional fossil fuels. In this context, photoelectrochemical (PEC) cells effectively convert solar energy directly to H2 fuel by water photoelectrolysis, thereby monolitically combining the functions of both light harvesting and electrolysis. In such devices, photocathodes and photoanodes carry out hydrogen evolution reaction (HER) and oxygen evolution reaction (OER), respectively. Here, we focus on photocathodes for HER, traditionally based on metal oxides, III-V group and II-VI group semiconductors, Si and copper-based chalcogenides as photoactive material. Recently, carbon-based materials have emerged as reliable alternatives to the aforementioned materials. Here, we provide a perspective on carbon-based photocathodes, critically analysing recent research progresses and outlining the major…
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