非共价键

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  • Non covalent bond;noncovalent bond
非共价键非共价键
  1. 并成功地通过非共价键作用,在气液界面和固液界面构筑了含有卟啉的分子聚集体材料。

    Via noncovalent bond , molecular assembled materials of the as-prepared compounds were constructed at gas-liquid interface and solid-liquid interface .

  2. 通过非共价键的自组装技术来建造超分子的体系结构,是实现纳米结构,得到纳米材料的重要方法之一。

    It is an important method to get nano materials through the noncovalent bond self-assembly technology to build supramolecular system structure .

  3. 上述研究说明在与细胞色素C形成非共价键复合物的过程中,皂苷的有效结合区域在寡糖部分而非三萜部分。

    This study shows that in the process of forming noncovalent complexes with Cytochrome c , the effective binding part of saponin is the oligosaccharides part rather than the triterpene part .

  4. 表面疏水性、SDS-PAGE和光散射测定表明酶促聚集体主要以共价键结合,体积大且不易解离,而热聚集体以非共价键结合,体积小,凝胶时易解离交联形成良好网络;

    Surface hydrophobicity , SDS-PAGE and light scattering showed aggregates caused by LOX were associated by covalent bonds with huge size and hard to dissociate ;

  5. 研究了这一反应体系的吸收光谱,认为BSA与ECR之间的结合力是以静电引力为主的非共价键作用力。测得这一反应的表现结合常数为5.2×105;

    It is considered that the noncovalent binding forces ( mainly the electrostatic force ) are the binding force between ECR and BSA .

  6. P(AA-co-St)/PVP水相自组装大分子非共价键合胶束的研究Schiff碱稀土配合物以共价键连接方式组装到介孔块体材料的研究

    Macromolecular Non-covalently Connected Micelles in Aqueous Media Self-assembled by P ( AA-co-St ) / PVP Study on Schiff Base Lanthanide Complexes Covalently Bonded to Meso-structured Silica

  7. 提出了β成核剂(p-NA)非共价键修饰MWNTs的新方法。

    A new noncovalent modification of MWNTs with P nucleating agent ( N , N-dicyclohexyl-2,6-naphthalenedicarboxamide ) was raised .

  8. IR光谱分析表明,水热处理改变了煤分子中氢键等非共价键作用,其中较高温度水热处理将导致醚键、酯键等弱共价键水解和芳环侧链的断裂。

    IR spectra of treated coals show that the forms of non-covalent bonds are changed by hydrothermal treatment , and the hydrolysis of ester and ether bonds and the pyrolysis of aromatic side chains also maybe occur at high treatment temperature .

  9. 本课题不但为选择新的配体与细胞色素C结合提供了一个新的思路,也进一步验证了ESI-MS是一种有效研究蛋白质非共价键复合物的分析手段。

    This subject not only provides a new horizon for the selection of new ligand binding to cytochrome C , but also gives a further validate that the ESI-MS is an effective analysis means for protein noncovalent complexes .

  10. 利用高分子量聚己内酯(PCL)制备了高分子无机组分间非共价键化学结合的PCL/SiO2有机无机杂化透明材料。

    PCL / SiO 2 hybrid materials with non-covalently bonding between polymeric and inorganic components were synthesized from high molecular weight poly (ε - caprolactone )( PCL ) by a sol-gel process .

  11. 研究表明:SCOT催化乙酰乙酰辅酶A生成的具体机制是与辅酶A的巯基生成硫酯并以非共价键的形式连接辅酶A的ADP基团。

    Elegant studies revealed that , the special mechanism of SCOT catalyzing the formation of acetoacetyl CoA is generating the thioester with coenzyme A and binding the ADP groups of coenzyme A in the form of non – covalent bond .

  12. 非共价键合聚酯/SiO2杂化材料的制备与性能

    Synthesis and Properties of Non - covalently Bonded Polyester-Silica Hybrid Materials

  13. 非共价键胶束&聚合物自组装的新途径

    Non-Covalent Bond Micellization & A New Approach to Macromolecular Self-Assembly

  14. 金/硫团簇非共价键相互作用的研究与意义

    Investigation into Non-Covalent Interaction Between Gold and Sulfur Clusters by TOF SIMS

  15. 氨基酸与钠离子非共价键相互作用的电喷雾质谱研究

    Non-covalent Interaction between Sodium Ion and Amino Acids by ESI - MS

  16. 有机分子识别和聚集体组装中的非共价键协同作用

    Cooperative Non - Covalent Interaction for Organic Molecular Recognition and Self - Assembly

  17. 基于非共价键作用力的纳米粒子层层组装薄膜

    Layer-by-layer Assembly Nanoparticle Film Based on Non-covalent Force

  18. 使用碱式溴甲酚绿对多壁碳纳米管进行非共价键功能化处理,使其分散在水溶液中。

    Multiple-walled carbon nanotubes were non-covalently functionalized with basic bromocresol green and dispersed in water .

  19. 非共价键自组装有机功能材料

    Non-covalent bond based self-assembly organic functional materials

  20. 与常规聚合物通过共价键连接不同,这种超分子聚合物单体之间是通过非共价键的连接形成的。

    In contrast to conventional polymers , the connection between monomers of supramolecular polymers is noncovalent .

  21. 迄今为止,已经报道了多种改性碳纳米管的方法,一般可划分为非共价键改性和共价键改性两大类。

    Up to date , various functionalization methods have been reported , including noncovalent and covalent functionalization .

  22. 这种非共价键连接的光控可逆自组装体系在许多领域具有潜在的应用价值。

    This non-covalently connected photo-controlled reversible assemblies system might have potential applications in many fields . 2 .

  23. 分类综述以共价键和非共价键偶联的各种配体-脂质体微粒和纳米粒的研究进展。

    The recent development of ligand-coupled liposome micro - and nano-particles by covalent and noncovalent bond was reviewed .

  24. 电喷雾质谱法作为一种软电离方式,其对于非共价键复合物的研究有着不可替代的地位。

    As a soft ionization method , ESI-MS has an irreplaceable position in the study of noncovalent complexes .

  25. 环糊精(准)聚轮烷是由环糊精与链状高分子通过非共价键结合得到的超分子结构。

    It was dealed with the various influence factors of self-assembling poly ( pseudo ) rotaxanes with cyclodextrins .

  26. 他们是由低或者高摩尔质量分子或者传统聚合物,通过非共价键可逆自组装形成。

    They are arrays of low or high molar mass molecules or conventional polymers reversibly self-assembled through noncovalent interactions .

  27. 超分子化学是小的分子单元通过非共价键自组装成大的超级分子的化学。

    The super molecule chemistry is that small molecule units have assembled big molecule with non-covalent bond by themselves .

  28. 通过研究多肽链相互之间的非共价键作用,能为蛋白质三维结构的研究奠定基础。

    It is useful to learn the three-dimensional structure of protein through studying the non-covalent interaction between the peptides .

  29. 近年来,已有一些关于石墨烯或氧化石墨烯功能化或改性的报道,包括共价键、非共价键和掺杂功能化等。

    Recently , the modification of graphene or graphene oxide ( GO ) mainly includes covalent , noncovalent and doping functionalization .

  30. 超分子自组装是不同分子单元之间依靠非共价键作用组装得到高度有序的热力学稳定的大分子结构。

    Supramolecular self-assembly which rely on the non-covalent bond interaction between different molecular units can form highly ordered macromolecular with thermodynamic stability .