Singh Wangkhem P, Singh Rajkumar S
Organic Materials Research Laboratory, Department of Basic Sciences & Social Sciences, North-Eastern Hill University, Shillong-793022, Meghalaya, India.
Beilstein J Org Chem. 2017 Jan 23;13:138-149. doi: 10.3762/bjoc.13.17. eCollection 2017.
In the present work, we have explored the use of the triphenylmethyl group, a commonly used protecting group for primary alcohols as a gelling structural component in the design of molecular gelators. We synthesized a small library of triphenylmethyl derivatives of simple primary alcohols and studied their gelation properties in different solvents. Gelation efficiency for some of the derivatives was moderate to excellent with a minimum gelation concentration ranging between 0.5-4.0% w/v and a gel-sol transition temperature range of 31-75 °C. 1,8-Bis(trityloxy)octane, the ditrityl derivative of 1,8-octanediol was the most efficient organogelator. Detailed characterizations of the gel were carried out using scanning electron microscopy, FTIR spectroscopy, rheology and powder XRD techniques. This gel also showed a good absorption profile for a water soluble dye. Given the non-polar nature of this molecule, gel formation is likely to be mediated by hydrophobic interactions between the triphenylmethyl moieties and alkyl chains. Possible self-assembled packing arrangements in the gel state for 1,8-bis(trityloxy)octane and (hexadecyloxymethanetriyl)tribenzene are presented. Results from this study strongly indicate that triphenylmethyl group is a promising gelling structural unit which may be further exploited in the design of small molecule based gelators.
在本工作中,我们探索了将三苯甲基基团(一种常用于保护伯醇的保护基团)用作分子凝胶剂设计中的凝胶化结构组分。我们合成了一个简单伯醇的三苯甲基衍生物的小型文库,并研究了它们在不同溶剂中的凝胶化性质。一些衍生物的凝胶化效率为中等至优异,最低凝胶化浓度在0.5 - 4.0% w/v之间,凝胶 - 溶胶转变温度范围为31 - 75°C。1,8 - 双(三苯氧基)辛烷,即1,8 - 辛二醇的双三苯甲基衍生物,是最有效的有机凝胶剂。使用扫描电子显微镜、傅里叶变换红外光谱、流变学和粉末X射线衍射技术对凝胶进行了详细表征。该凝胶对水溶性染料也显示出良好的吸附特性。鉴于该分子的非极性性质,凝胶的形成可能是由三苯甲基部分与烷基链之间的疏水相互作用介导的。文中给出了1,8 - 双(三苯氧基)辛烷和(十六烷氧基甲烷三基)三苯在凝胶态下可能的自组装堆积排列。本研究结果有力地表明,三苯甲基基团是一个有前景的凝胶化结构单元,可在基于小分子的凝胶剂设计中进一步加以利用。