Revisiting Nitrogen Species in Covalent Triazine Frameworks
Dmitrii OsadchiiAlma I. Olivos SuarezAnastasiya BavykinaJorge Gascón
Abstract
Covalent triazine frameworks (CTFs) are porous organic materials promising for applications in catalysis and separation due to their high stability, adjustable porosity, and intrinsic nitrogen functionalities. CTFs are prepared by ionothermal trimerization of aromatic nitriles; however, multiple side reactions also occur under synthesis conditions, and their influence on the material properties is still poorly described. Here we report the systematic characterization of nitrogen in CTFs using X-ray photoelectron spectroscopy. With the use of model compounds, we could distinguish several types of nitrogen species. By combining these data with textural properties, we unravel the influence that the reaction temperature, the catalyst, and the monomer structure and composition have on the properties of the resulting CTF materials.
Metrics
Citation History
Topics
Related Documents
Revisiting Nitrogen Species in Covalent Triazine Frameworks
DmitriiYu. Osadchii (4670551)Alma I. Olivos-Suarez (4285366)Anastasiya V. Bavykina (4285363)Jorge Gascon (1474357)
Covalent triazine frameworks
Anchoring ultra-small molybdenum oxide species on covalent triazine frameworks for efficient electrochemical nitrogen fixation
Wenwen LinTeng GuoZihao ZhangHao ChenGaobo LinYifeng LiuSiyu YaoLiang WangBolong LiJianghao WangJie FuPingkai Ouyang
Machine Learning‐Assisted Design of Nitrogen‐Rich Covalent Triazine Frameworks Photocatalysts
Mingliang WuZhilong SongYu CuiZhanzhao FuKunquan HongQiang LiZhiyang LyuWei LiuJinlan Wang
Covalent triazine frameworks: synthesis and applications
Manying LiuLiping GuoShangbin JinBien Tan