Litcius/Paper detail

Visible Light‐Driven Conversion of Carbon‐Sequestrated Seawater into Stoichiometric CO and HClO with Nitrogen‐Doped BiOCl Atomic Layers

Yanbiao Shi, Hongwei Shou, Hao Li, Guangming Zhan, Xupeng Liu, Zhiping Yang, Chengliang Mao, Jundi Cheng, Xu Zhang, Yaqian Jiang, Shengxi Zhao, Jiaxian Wang, Xiao Liu, Li Song, Hongwei Sun, Lizhi Zhang

2023Angewandte Chemie International Edition95 citationsDOI

Abstract

Abstract Seawater is one of the most important CO 2 sequestration media for delivering value‐added chemicals/fuels and active chlorine; however, this scenario is plagued by sluggish reaction rates and poor product selectivity. Herein, we first report the synthesis of nitrogen‐doped BiOCl atomic layers to directly split carbon‐sequestrated natural seawater (Yellow Sea, China) into stoichiometric CO (92.8 μmol h −1 ) and HClO (83.2 μmol h −1 ) under visible light with selectivities greater than 90 %. Photoelectrons enriched on the exposed BiOCl{001} facet kinetically facilitate CO 2 ‐to‐CO reduction via surface‐doped nitrogen bearing Lewis basicity. Photoholes, mainly located on the lateral facets of van der Waals gaps, promote the selective oxidation of Cl − into HClO. Sequestrated CO 2 also maintains the pH of seawater at around 4.2 to prevent the alkaline earth cations from precipitating. The produced HClO can effectively kill typical bacteria in the ballast water of ocean‐going cargo ships, offering a green and safe way for onsite sterilization.

Topics & Concepts

SeawaterChemistryNitrogenChlorineStoichiometryInorganic chemistryCarbon fibersEnvironmental chemistryHalogenMaterials scienceAlkylOrganic chemistryGeologyOceanographyComposite numberComposite materialAdvanced Photocatalysis TechniquesCO2 Reduction Techniques and CatalystsCovalent Organic Framework Applications