Theophylline recognition copolymer membranesprepared by molecular imprinting method theophylline recognition copolymer membranesprepared by molecular imprinting method 用分子复制法制备具有分子识别功能的高分子膜
The progress on synthesis , molecular recognition , and mimic enzymes catalysis of cyclodextrim aldehydes and their derivatives were summarized 摘要综述了环糊精醛及其衍生物的合成、分子识别作用和模拟酶催化方面的最新研究进展。
A further family of fibre optic chemical sensors has either surface atached molecular recognition sites or a reaction chamber for achieving specific molecular detection 光纤化学传感器还具有表面分子识别位点或化学反应部位,可用于特定分子的检测。
Calixarenes , cyclic oligomer of phenol - formaldehyde condensates have attracted great interest in supramolecular chemistry due to their peculiar molecular recognition ability 作为第三代超分子大环化合物的代表,杯芳烃具有特殊的分子识别能力和独特的结构易修饰性。
Calixarenes , cyclic oligomer of phenol - formaldehyde condensates have attracted great interest in supramolecular chemistry due to their peculiar molecular recognition ability 摘要作为第三代超分子大环化合物的代表,杯芳烃具有特殊的分子识别能力和独特的结构易修饰性。
Studies on these processes show great importance both in theory and application research aspects . it ' s always the focus of the international scientific research fields 研究生物体内的分子识别过程,已成为国际学术界异常活跃的研究热点,具有重要的理论意义和应用价值。
Recent progress of porphyrin in analytical chemistry application , especially in spectrophotometry , electrochemistry , molecular recognition and probe , was reviewed 摘要综述了卟啉及配合物在分析化学中的应用研究进展,重点介绍了其在光度分析、电化学、分子识别、探针等方面的应用。
In recently research , it had been used in many research fields such as molecular recognition , clinical diagnosis , molecular filming , surface property research , poison research and so forth 目前,压电传感器在分子识别、临床诊断、分子成膜过程、表面性质、毒理研究等领域中已得到较为广泛的应用。
The inclusion interaction and molecular recognition of cyclodextrin and its derivatives are discussed , also , the paper introduced development of cyclodextrin supermolecular chemistry is briefly introduced 摘要本文介绍了环糊精超分子化学领域的研究概况,从环糊精的包合作用及其分子识别功能两个方面进行了简要概述。
It concentrates increasingly attentions in the field of studies on biosensors . one of the key techniques of it is its construction of sensitive films or the molecule - recognizing designs so - called the immobilization of bio - molecules 其中,传感器的敏感膜或生物分子识别层的构造(即生物分子的固定化)技术是研制理想的压电免疫传感器的关键之一。
