食品安全质量检测学报
食品安全質量檢測學報
식품안전질량검측학보
FOOD SAFETY AND QUALITY DETECTION TECHNOLOGY
2014年
5期
1459-1467
,共9页
陈孝建%王静%佘永新%叶青%曹维强
陳孝建%王靜%佘永新%葉青%曹維彊
진효건%왕정%사영신%협청%조유강
分子印迹%固相萃取%色谱固定相%膜分离%传感器
分子印跡%固相萃取%色譜固定相%膜分離%傳感器
분자인적%고상췌취%색보고정상%막분리%전감기
molecular imprinting%solid-phase extraction%chromatographic stationary phases%membrane separation%sensor
分子印迹,属于超分子化学研究的范畴,是指以目标分子为模板,制备对该分子有特异选择性识别的聚合物的过程。分子印迹聚合物以其结构预定性、特异识别性和实用性的特点,引起了全世界范围的关注。因其具有与天然抗体同样的识别性能和与高分子同样的抗腐蚀性能的双重优点,因而广泛应用于生物工程、临床医学、环境监测、食品工业等众多领域。本文综述了分子印迹技术的发展历程,分子印迹聚合物的制备原理及方法以及在固相萃取、色谱分离、膜分离以及传感器领域的应用。色谱分离领域中对分子印迹在高效液相色谱、薄层色谱和毛细管电泳,以及传感器领域中分别对分子印迹光学传感器和电化学传感器的应用现状进行了阐述,最后对该技术进行了展望。
分子印跡,屬于超分子化學研究的範疇,是指以目標分子為模闆,製備對該分子有特異選擇性識彆的聚閤物的過程。分子印跡聚閤物以其結構預定性、特異識彆性和實用性的特點,引起瞭全世界範圍的關註。因其具有與天然抗體同樣的識彆性能和與高分子同樣的抗腐蝕性能的雙重優點,因而廣汎應用于生物工程、臨床醫學、環境鑑測、食品工業等衆多領域。本文綜述瞭分子印跡技術的髮展歷程,分子印跡聚閤物的製備原理及方法以及在固相萃取、色譜分離、膜分離以及傳感器領域的應用。色譜分離領域中對分子印跡在高效液相色譜、薄層色譜和毛細管電泳,以及傳感器領域中分彆對分子印跡光學傳感器和電化學傳感器的應用現狀進行瞭闡述,最後對該技術進行瞭展望。
분자인적,속우초분자화학연구적범주,시지이목표분자위모판,제비대해분자유특이선택성식별적취합물적과정。분자인적취합물이기결구예정성、특이식별성화실용성적특점,인기료전세계범위적관주。인기구유여천연항체동양적식별성능화여고분자동양적항부식성능적쌍중우점,인이엄범응용우생물공정、림상의학、배경감측、식품공업등음다영역。본문종술료분자인적기술적발전역정,분자인적취합물적제비원리급방법이급재고상췌취、색보분리、막분리이급전감기영역적응용。색보분리영역중대분자인적재고효액상색보、박층색보화모세관전영,이급전감기영역중분별대분자인적광학전감기화전화학전감기적응용현상진행료천술,최후대해기술진행료전망。
Molecular imprinting, which belonged to the category of supra molecular chemistry, was the process of preparation of polymer molecule with high specific and selective recognition, which based target molecule as template. Because of the structural predetermination, specific recognition and practical features, molecularly imprinted polymers attracted worldwide attention. Molecular imprinted polymers exhibited both advantages of highly stero-and enantio-selective recognition and strong resistance against corrosion. Therefore, MIPs were used extensively in biotechnology, clinical medicine, environmental monitoring, food industries and so on. The development course of molecular imprinting technique, preparation principles and methods and ap-plication in the field of solid-phase extraction, chromatographic separation, membrane separation and sensor were reviewed in this paper. And the application of molecular imprinting in high liquid chromatography, thin layer chromatography, capillary electrophoresis and sensor were also discussed. Finally, this technology in analysis and test was prospected.