writer：YurouWang, JingpengXiong, FenPeng, QuanLi, Ming-Hua Zeng
keywords：Schiff base，Low-molecular-weight-gel，Assembly mechanism，Stimuli-responsiveness，Intelligent materials
source：期刊
specific source：Colloids and Surfaces A: Physicochemical and Engineering Aspects
Issue time：2022年
An unprecedented Schiff base gelator with ultra-low molecular weight (Mw=188) was facilely prepared from readily available starting materials in a single step. The gelator was found to possess a strong gelation ability with the critical gelation concentration down to 0.45 wt% in dichloromethane (DCM). FT-IR, NMR, XRD, SEM, theoretical calculation, and control experiment were combined to elucidate the assembly mechanism of gelator leading to gel. It was revealed that the hydrogen bonding associated with the triazole NH moiety plays a crucial role in the formation of the fibrillar gel network. This supramolecular gel demonstrated multiple-stimulus responsive (temperature, pH, metal ion) gel-sol phase transition behavior, particularly interesting aspect is that only 0.13 eq. F- is required to collapse the gel, representing the most sensitive supramolecular gel to F- anion up to now and endowing it with great potential as F- detector. The newly found Schiff base gelator reported here would offer prospects for the future design of more intelligent materials based on simple but versatile molecular scaffolds.