Host Guest
主宾

Host Guest(主宾)研究综述

Host Guest 主宾 - Precisely, the polymer brushes based ionic liquid, poly(imidazolium), were used as a platform for host guesting carbon-dots material and their electrocatalytic activity towards the oxygen reduction reaction was evaluated. ^[1]
准确地说，基于离子液体的聚合物刷聚（咪唑）被用作宿主客体碳点材料的平台，并评估了它们对氧还原反应的电催化活性。 ^[1]

host guest interaction 主客互动

Further studies show that the good performance of the constructed sensor is attributed to its good conductivity, high specific surface area and effective host guest interaction between DA molecules and COF framework. ^[1] The host guest interaction between MCh and SCX4 produces an inclusion complex that can be investigated using different UV-spectrophotometric methods [dual wavelength method (DWM), ratio difference method (RDM) and ratio derivative method (1DD)]. ^[2] Moreover, alcohol vapors could activate the device to achieve gas-mediated multilevel resistive switching since COF materials can absorb small molecules through host guest interactions to vary the conductivity. ^[3] Cyclodextrin is a macrocyclic compound with a cavity after crown ether, which can form inclusion complexes via host guest interactions as the main body. ^[4] The theoretical calculations were correlated with experimental results to understand the sensing mechanism between host guest interactions and L distinguishes Zn2+ from Cd2+. ^[5] The host guest interactions studied by FTIR and DSC confirmed true inclusion of EFA with HPβCD at 1:2 M. ^[6] The social tradition, culture and human behaviour exchange between host guest interactions. ^[7] However, the discrete larger nuclearity molecular polyhedra, which resemble to spherical shape, have potential applications in host guest interactions, recognition, sensing, separation and catalysis. ^[8]
进一步的研究表明，所构建传感器的良好性能归因于其良好的导电性、高比表面积以及 DA 分子与 COF 框架之间有效的主客体相互作用。 ^[1] MCh 和 SCX4 之间的主客体相互作用产生了一种包合物，可以使用不同的紫外分光光度法 [双波长法 (DWM)、比率差法 (RDM) 和比率导数法 (1DD)] 进行研究。 ^[2] 此外，酒精蒸气可以激活器件以实现气体介导的多级电阻切换，因为 COF 材料可以通过主客体相互作用吸收小分子以改变电导率。 ^[3] 环糊精是一种在冠醚之后具有空腔的大环化合物，以主客体相互作用为主体形成包合物。 ^[4] 理论计算与实验结果相关联，以了解主客体相互作用和 L 区分 Zn2+ 和 Cd2+ 之间的传感机制。 ^[5] FTIR 和 DSC 研究的主客体相互作用证实了 EFA 与 HPβCD 在 1:2 M 时的真实包含。 ^[6] 主客互动之间的社会传统、文化和人类行为交流。 ^[7] 然而，类似球形的离散较大核分子多面体在主客体相互作用、识别、传感、分离和催化中具有潜在的应用。 ^[8]

host guest molecule 主客分子

Starch cages, that behaviour as a host guest molecule, leading to the amine molecules to penetrate them forming cluster. ^[1] Macrocycles are a class of intrinsically porous organic molecules that can host guest molecules selectively. ^[2] They are both crystalline and porous and their pores can host guest molecules or even nanoparticles, opening a wide range of potential applications. ^[3] A new [Zn2L2] metallocycle bearing two metal centers that can coordinate ancillary ligands and a pocket suitable to host guest molecules is reported. ^[4] For instance, self-assembled structures not only can serve as secondary templates to host guest molecules but also can stabilize surface metal adatoms. ^[5]
淀粉笼，即作为主客体分子的行为，导致胺分子穿透它们形成簇。 ^[1] 大环是一类可以选择性地承载客体分子的固有多孔有机分子。 ^[2] 它们既是结晶的又是多孔的，它们的孔可以容纳客体分子甚至纳米颗粒，从而开启了广泛的潜在应用。 ^[3] 报道了一种新的 [Zn2L2] 金属环，它带有两个可以配位辅助配体的金属中心和一个适合容纳客体分子的口袋。 ^[4] 例如，自组装结构不仅可以作为辅助模板来承载客体分子，还可以稳定表面金属吸附原子。 ^[5]

host guest complex

The Supramolecular systems as macrocycles form host guest complexes that they can be applied to the design of Nanosensors due to their capabilities of molecular recognition. ^[1] In addition, 1H NMR titration experiments of SBL with Al3+ confirms the binding mechanism as 1:1 host guest complex. ^[2] ABSTRACT We investigated the formation of host guest complexes between cucurbit[8]uril (CB[8]) and 14 cationic guest compounds (2 – 15) by1H NMR spectroscopy and isothermal titration calorimetry (ITC). ^[3]
超分子系统作为大环形成主客体复合物，由于它们的分子识别能力，它们可以应用于纳米传感器的设计。 ^[1] 此外，SBL 与 Al3+ 的 1H NMR 滴定实验证实了作为 1:1 主客体复合物的结合机制。 ^[2] 摘要 我们通过 1H NMR 光谱和等温滴定量热法 (ITC) 研究了葫芦[8]脲 (CB[8]) 和 14 种阳离子客体化合物 (2-15) 之间的主客体配合物的形成。 ^[3]