Surface properties of carbon nitride materials used in photocatalytic systems for energy and environmental applications

Abstract

The use of photocatalytic systems involving semiconductor materials for environmental and energy applications, such as water remediation and clean energy production, is highly significant. In line with this, a family of carbon-based polymeric materials known as carbon nitride (CN_x) has emerged as a promising candidate for this purpose. Despite CN_x's remarkable characteristics of performance, stability, and visible light responsiveness, its chemical inertness and poor surface properties hinder interfacial interactions, which are key to effective catalysis. This highlight reviews the literature focusing on the surface chemistry of CN_x, especially its structural formation pathway, reactivity, and solvent interactions. It also explores recent advancements in the use of modified CN_x for hydrogen production and arsenic remediation, offering recommendations for future material design improvements.