磺酸盐
溶剂
化学
聚合物
配位复合体
配位聚合物
等级制度
高分子化学
有机化学
钠
市场经济
经济
金属
作者
Fan Yang,Xiang‐Jing Kong,Tao He,Zhengqing Zhang,Ke Wang,Honglin Du,Guohong Cai,Jing Ju,Xiaoge Wang,Jianrong Li,Junliang Sun,Chongli Zhong
出处
期刊:Chemical Science
[Royal Society of Chemistry]
日期:2025-01-01
卷期号:16 (26): 11823-11832
被引量:2
摘要
Constructing sulfonate coordination polymers (CPs) with high stability remains a significant challenge due to the relatively weak coordination ability of the sulfonate group, especially when paired with highly inert Cr3+ ions. In this study, we designed solvent-free methods to enhance Cr(iii)-sulfonate coordination and further advance its reticular chemistry. For the first time, two Cr(iii)-sulfonate CPs, TGU-9 and TGU-10, were successfully constructed, along with two supramolecules, TGU-7 and TGU-8. All structures were elucidated using the 3D electron diffraction technique. Through solvent-free methods, Cr(iii)-sulfonate coordination was achieved by a double displacement reaction between Cr salts and -SO3H groups. In particular, this method resulted in a counterintuitive coordination reversal from -COO- > -SO3 - to -SO3 - > -COO-. Reaction mechanism analysis revealed that the higher acidity of the -SO3H group, compared to the -COOH group, leads to its preferential deprotonation, thereby facilitating the kinetics of Cr-sulfonate self-assembly. Furthermore, both TGU-9 and TGU-10 exhibited exceptional long-term stability under ambient conditions and over a wide pH range. They also showed high proton conductivity exceeding 10-2 S cm-1, ranking in the top two among the reported sulfonate CPs. The designed solvent-free method demonstrated a generally applicable and simple strategy in designing novel metal-ligand coordination and constructing reticular chemistry, beyond the limitations of conventional solvent-based methods.
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