Baluchová Simona, Zoltowska Sonia, Giusto Paolo, Kumru Baris
Department of Analytical Chemistry, Faculty of Science, Charles University, Albertov 6, Prague 2, CZ 128 00, Czech Republic.
Department of Colloid Chemistry, Max Planck Institute of Colloids and Interfaces, Am Mühlenberg 1, 14476, Potsdam, Germany.
ChemSusChem. 2024 Nov 25;17(22):e202400618. doi: 10.1002/cssc.202400618. Epub 2024 Jul 31.
Metal-free graphitic carbon nitrides are on the rise as polymer photocatalysts under visible light illumination, taking shares in a range of promising photocatalytic reactions, including water splitting. Their simple synthesis and facile structural modification afford them exceptional tunability, enabling the creation of photocatalysts with distinct properties. While their metal-free nature marks a significant step towards environmental sustainability, the high energy consumption required to produce carbon nitride photocatalysts remains a substantial barrier to their widespread adoption. Furthermore, the process of condensation at approximately 550 °C typically results in solid yields of less than 15 %, significantly challenging their economic viability. Here, we report on lowering manufacturing conditions of carbon nitride photocatalysts whilst enhancing photocatalytic activity by introducing binaphthyl diamine as a structural mediator. At 450 °C in 2 hours, carbon nitride photocatalyst shows a lower bandgap and enables visible light induced hydrogen evolution (194 μmol h) comparable to benchmark carbon nitride photocatalysts.
无金属石墨相氮化碳作为聚合物光催化剂在可见光照射下正在兴起,在一系列有前景的光催化反应中占据一席之地,包括水分解。它们简单的合成方法和便捷的结构修饰赋予了它们非凡的可调性,能够制备出具有独特性能的光催化剂。虽然它们的无金属特性标志着在环境可持续性方面迈出了重要一步,但生产氮化碳光催化剂所需的高能耗仍然是其广泛应用的重大障碍。此外,在约550°C下的缩合过程通常导致固体产率低于15%,这对它们的经济可行性构成了重大挑战。在此,我们报告通过引入联萘二胺作为结构介质来降低氮化碳光催化剂的制备条件,同时提高光催化活性。在450°C下2小时,氮化碳光催化剂显示出较低的带隙,并能实现与基准氮化碳光催化剂相当的可见光诱导析氢(194 μmol h)。