Key Laboratory of Colloid and Interface Chemistry of the Ministry of Education, School of Chemistry and Chemical Engineering, Shandong University, Jinan, Shandong 250100, China.
Key Laboratory of Colloid and Interface Chemistry of the Ministry of Education, School of Chemistry and Chemical Engineering, Shandong University, Jinan, Shandong 250100, China.
J Colloid Interface Sci. 2022 Mar 15;610:1067-1076. doi: 10.1016/j.jcis.2021.11.170. Epub 2021 Nov 30.
In living systems, dynamic processes like dissipative assembly, polymorph formation, and destabilization of hydrophobic domains play an indispensable role in the biochemical processes. Adaptation of biological self-assembly processes to an amphiphilic molecule leads to the fabrication of intelligent biomaterials with life-like behavior.
An amphiphilic glycolipid molecule was engineered into various dissipative assemblies (vesicles and supramolecular nanotube-composed hydrogels) by using two activation steps, including heating-cooling and shear force in method-1 or boric acid/glycolipid complexation and shear force in method-2. The influence of number of activation steps on vesicle to nanotube phase transitions and activation method on the properties of hydrogels were investigated, where the morphological transformations and destabilization of hydrophobic domains resulted from a bilayer to a higher-order crystal structure.
Hydrophobic and hydrophilic cargos encapsulated in the dissipative assemblies (vesicles and injectable hydrogels) can be released in a controlled manner via changing the activation method. The reported adaptive materials engineered by dual activation steps are promising self-assembled systems for programmed release of loaded cargos at a tunable rate.
在生命系统中,耗散组装、多态形成和疏水区失稳等动态过程在生化过程中起着不可或缺的作用。将生物自组装过程适应于两亲分子,可制造出具有类似生命行为的智能生物材料。
通过两种激活步骤(方法 1 中的加热-冷却和剪切力,或方法 2 中的硼酸/糖脂复合物和剪切力),将两亲性糖脂分子设计成各种耗散组装体(囊泡和由超分子纳米管组成的水凝胶)。研究了激活步骤数对囊泡到纳米管相转变的影响以及激活方法对水凝胶性质的影响,其中疏水区的形态转变和失稳是由双层到更高阶晶体结构引起的。
通过改变激活方法,可以以可控的方式释放包裹在耗散组装体(囊泡和可注射水凝胶)中的疏水性和亲水性货物。通过双激活步骤设计的报道自适应材料是有前途的自组装系统,可在可调节的速率下对负载货物进行编程释放。
