Hierarchically Porous Few-Layer Carbon Nitride and Its High H + Selectivity for Efficient Photocatalytic Seawater Splitting.
Shi-Tian XiaoRui YinLu WuSi-Ming WuGe TianMenny ShalomLi-Ying WangYi-Tian WangFu-Fei PuHannah-Noa BaradFazhou WangXiao-Yu YangPublished in: Nano letters (2023)
Photocatalysts for seawater splitting are severely restricted because of the presence of multiple types of ions in seawater that cause corrosion and deactivation. As a result, new materials that promote adsorption of H + and hinder competing adsorption of metal cations should enhance utilization of photogenerated electrons on the catalyst surface for efficient H 2 production. One strategy to design advanced photocatalysts involves introduction of hierarchical porous structures that enable fast mass transfer and creation of defect sites that promote selective hydrogen ion adsorption. Herein, we used a facile calcination method to fabricate the macro-mesoporous C 3 N 4 derivative, V N -HCN, that contains multiple nitrogen vacancies. We demonstrated that V N -HCN has enhanced corrosion resistance and elevated photocatalytic H 2 production performance in seawater. Experimental results and theoretical calculations reveal that enhanced mass and carrier transfer and selective adsorption of hydrogen ions are key features of V N -HCN that lead to its high seawater splitting activity.
Keyphrases
- visible light
- aqueous solution
- molecularly imprinted
- highly efficient
- reduced graphene oxide
- quantum dots
- metal organic framework
- molecular dynamics
- water soluble
- molecular dynamics simulations
- solid phase extraction
- density functional theory
- gene expression
- gold nanoparticles
- dna methylation
- genome wide
- carbon dioxide
- single cell