Engineering photocatalytic materials for renewable energy generation and environmental
decontamination has always been a very exciting prospect to counter the global energy …

Graphitic carbon nitride (gC 3 N 4) is a promising polymeric semiconductor comprised of
carbon and nitrogen, both of which have natural abundance, making it an attractive and …

Graphitic carbon nitride, g-C3N4, is a polymeric material consisting of C, N, and some
impurity H, connected via tris-triazine-based patterns. Compared with the majority of carbon …

Polymeric graphitic carbon nitride (for simplicity, g-C3N4) is a layered material similar to
graphene, being composed of only C, N, and some impurity H. Contrary to graphenes, g …

Polymeric graphitic carbon nitride materials (for simplicity: g‐C3N4) have attracted much
attention in recent years because of their similarity to graphene. They are composed of C, N …

The development of catalysts that enable the direct conversion of solar energy into chemical
energy has been defined as one of the major challenges of modern materials chemistry …

With the explosive growth of energy consumption, the exploration of highly efficient energy
conversion and storage devices becomes increasingly important. Fuel cells …

This review provides a comprehensive overview about the fascinating history and chemistry
of s-heptazines in its ionic, molecular and polymeric forms–their synthesis, structure …

In recent years, graphitic carbon nitride (g-C3N4) has elicited interdisciplinary research
attention and experienced a renaissance as a highly active metal-free and visible-light …

Abstract Polymere graphitische Kohlenstoffnitrid‐Materialien (vereinfacht g‐C3N4), die nur
aus C, N und Spuren von H bestehen, sind in den letzten Jahren wieder verstärkt in das …