片语

molecular-recognition membrane分子识别型膜

molecular recognition mechanism分子识别机理

molecular recognition and mechanism分子识别和机理

molecular recognition theory分子识别理论

molecular recognition code分子识别密码

Chiral molecular recognition手性分子识别

molecular fluorimetric recognition分子荧光识别

inteffacial molecular recognition界面分子识别

molecular recognition materials分子识别材料

英汉例句

• as a novel cross subject, host-guest chemistry based on molecular recognition has been a hot spot of current study.

  以分子识别为基础的主-客体化学作为新兴交叉学科，已成为当今研究的热点。

• the intermolecular interactions a nd molecular recognition of coal are key components of coal supramolecular chemistry.

  煤分子间相互作用和分子识别是煤超分子化学的关键所在。

• the structures of oligosaccharides from crotalaria mucronata lectin(cml) with human a blood group specificity were studied to elucidate the molecular recognition mechanism of lectin.

  为了探讨凝集素的分子识别机制，对a型血专一性凝集素———野花生豆凝集素的寡糖链结构进行了研究。

• molecular recognition with fluorescent label probe has been hot topic in the field of life science.

  利用荧光标记物进行分子识别是目前生命科学研究的热点课题。

• compared with the routine and traditional medium used for separation and analysis, the outstanding character of mips based on molecular recognition is its excellent selectivity to the substrates.

  与常规和传统的分离和分析介质相比，基于分子识别的分子印迹聚合物的突出特点是对被分离物或分析物具有高度的选择性。

• their functions in the molecular recognition are widely used in modern seperation science.

  其分子识别功能在现代分离科学中有着广泛的应用。

• molecular recognition and molecular self-assembly through the non-covalent bond is the two important parts of supramolecular chemistry.

  基于非共价相互作用的分子识别和自组装是超分子化学研究的两个重要的领域。

• molecular recognition is of central importance in biology and pharmacology.

  分子识别的研究具有重要的生物学和药理学意义。

• the study on molecular recognition of artificial receptors is one of the frontiers in bioorganic chemistry.

  人工分子识别研究是生物有机化学前沿富有挑战性的领域之一。

• in the past decade cucurbituril has become a new star molecule with emphasis on the study of host-guest molecular recognition and assembly to supramolecular structure.

  随着过去十年主体对客体的分子识别和组装成为超分子化学的核心研究内容，南瓜尼已经成为一个明星分子。

• functional materials with molecular recognition ability can be obtained by blending or bonding calixarenes into the polymer materials.

  将杯芳烃掺杂或键合于高分子材料中，可得到各种具有分子识别功能的高分子材料。

• molecular imprinting technique is a polymerizing technique to produce molecular recognition materials with high selectivity and affinity.

  分子烙印技术是一种制备具有特定选择性和亲合性的分子识别材料的技术。

• the application of molecular recognition in affinity chromatography, solid extraction, membrane separation technology raises the separation efficiency and separates those optical isomeric compounds.

  分子识别应用于亲和色谱、固相萃取、膜分离技术极大地促进了分离效率的提高和一些复杂物质的拆分。

• functionalized lipid bilayer vesicles on which molecular recognition by an artificial receptor synchronized with catalytic reaction by an enzyme were prepared in aqueous media.

  在人工双层膜囊泡表面，构建了一个通过人工受体的分子识别行为控制酶反应活性的超分子体系。

• a review is presented on the development of the chemical sensors based on the biological molecular recognition system and synthetical molecular recognition system.

  从分子识别的角度简述了生物分子识别系统和合成分子识别系统在化学传感器研究中的应用以及可能的发展方向。

• the enhancement of chromatographic separate selectivity based on the molecular recognition of calixarenes is successful application of supramolecular chemistry in separation sciences.

  利用杯芳烃的分子识别作用提高色谱分离选择性是超分子化学在分离科学中的成功应用。