物理化学学报
物理化學學報
물이화학학보
Acta Physico-Chimica Sinica
2015年
9期
1733-1740
,共8页
廖芝建%秦振立%杜思南%李思雨%陈冠侯%左芳%罗建斌
廖芝建%秦振立%杜思南%李思雨%陳冠侯%左芳%囉建斌
료지건%진진립%두사남%리사우%진관후%좌방%라건빈
液晶%氢键作用%取向转变%界面现象%光学响应%酚类%牛血清蛋白
液晶%氫鍵作用%取嚮轉變%界麵現象%光學響應%酚類%牛血清蛋白
액정%경건작용%취향전변%계면현상%광학향응%분류%우혈청단백
Liquid crystal%Hydrogen-bond interaction%Orientational transition%Interfacial phenomenon%Optical response%Phenols%Bovine serum albumin
本文提出液晶/水界面上氢键作用可以诱导热致型液晶(戊基联苯氰,简称:5CB)发生取向转变。当液晶5CB膜接触酚类(如对硝基苯酚)水溶液的时候,由于酚类物质的酚羟基与液晶5CB分子中的氰基在液晶水界面上形成了氢键,在氢键的作用下使得液晶5CB由平行取向转变成了垂直取向。此外,还利用了液晶传感器可视化了酚类物质与牛血清蛋白(BSA)之间的相互作用。本文的研究结果可为研究液晶/水界面上的界面现象提供新的思路,并且有望开发出基于氢键作用的液晶生物化学传感技术。
本文提齣液晶/水界麵上氫鍵作用可以誘導熱緻型液晶(戊基聯苯氰,簡稱:5CB)髮生取嚮轉變。噹液晶5CB膜接觸酚類(如對硝基苯酚)水溶液的時候,由于酚類物質的酚羥基與液晶5CB分子中的氰基在液晶水界麵上形成瞭氫鍵,在氫鍵的作用下使得液晶5CB由平行取嚮轉變成瞭垂直取嚮。此外,還利用瞭液晶傳感器可視化瞭酚類物質與牛血清蛋白(BSA)之間的相互作用。本文的研究結果可為研究液晶/水界麵上的界麵現象提供新的思路,併且有望開髮齣基于氫鍵作用的液晶生物化學傳感技術。
본문제출액정/수계면상경건작용가이유도열치형액정(무기련분청,간칭:5CB)발생취향전변。당액정5CB막접촉분류(여대초기분분)수용액적시후,유우분류물질적분간기여액정5CB분자중적청기재액정수계면상형성료경건,재경건적작용하사득액정5CB유평행취향전변성료수직취향。차외,환이용료액정전감기가시화료분류물질여우혈청단백(BSA)지간적상호작용。본문적연구결과가위연구액정/수계면상적계면현상제공신적사로,병차유망개발출기우경건작용적액정생물화학전감기술。
In this paper, an orientational anchoring transition of the thermotropic nematic liquid crystal (LC) (4-cyano-4'-pentylbiphenyl (5CB)) driven by hydrogen-bond (HB) interaction at the LC-aqueous interface is presented. After a 5CB film is introduced onto an aqueous solution of phenols such as nitrophenol, the alignment of 5CB changes from planar to homeotropic, which is attributed to HB interaction between 5CB and phenols at the LC-aqueous interface. On the other hand, the interaction ofp-nitrophenol orm-nitrophenol with bovine serum albumin (BSA) is imaged by the LC sensor. Overall, the results provide new insight into interfacial phenomena occurring at the LC-aqueous interface, and hold the potential for biological and chemical sensing techniques based on HB interaction.