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1.
Antony Wing Hung Ng Samuel Kin-Man Lai Chi-Chung Yee Ho Yu Au-Yeung 《Angewandte Chemie (Weinheim an der Bergstrasse, Germany)》2022,134(1):e202110200
A branched [8]catenane from an efficient one-pot synthesis (72 % HPLC yield, 59 % isolated yield) featuring the simultaneous use of three kinds of templates and cucurbit[6]uril-mediated azide–alkyne cycloaddition (CBAAC) for ring-closing is reported. Design and assembly of the [8]catenane precursors are unexpectedly complex that can involve cooperating, competing and non-influencing interactions. Due to the branched structure, dynamics of the [8]catenane can be modulated in different extent by rigidifying/loosening the mechanical bonds at different regions by using solvent polarity, acid-base and metal ions as the stimuli. This work not only highlights the importance of understanding the delicate interplay of the weak and non-obvious supramolecular interactions in the synthesis of high-order [n]catenane, but also demonstrates a complex control of dynamics and flexibility for exploiting [n]catenanes applications. 相似文献
2.
Dr Martin Seah, NPL, was the initiator, founder, and first chairman of the Surface Analysis Working Group (SAWG) at the Consultative Committee for Amount of Substance, Metrology in Chemistry and Biology (CCQM) at the Bureau International des Poids et Mesures (BIPM), the international organization established by the Metre Convention. This tribute letter summarizes his achievements during his chairmanship and his long-running impact on the successful work of the group after his retirement. 相似文献
3.
Adil Mustafa Elisa Pedone Lucia Marucci Despina Moschou Mirella Di Lorenzo 《Electrophoresis》2022,43(3):501-508
Effective methods for rapid sorting of cells according to their viability are critical in T cells based therapies to prevent any risk to patients. In this context, we present a novel microfluidic device that continuously separates viable and non-viable T-cells according to their dielectric properties. A dielectrophoresis (DEP) force is generated by an array of castellated microelectrodes embedded into a microfluidic channel with a single inlet and two outlets; cells subjected to positive DEP forces are drawn toward the electrodes array and leave from the top outlet, those subjected to negative DEP forces are repelled away from the electrodes and leave from the bottom outlet. Computational fluid dynamics is used to predict the device separation efficacy, according to the applied alternative current (AC) frequency, at which the cells move from/to a negative/positive DEP region and the ionic strength of the suspension medium. The model is used to support the design of the operational conditions, confirming a separation efficiency, in terms of purity, of 96% under an applied AC frequency of 1.5 × 106 Hz and a flow rate of 20 μl/h. This work represents the first example of effective continuous sorting of viable and non-viable human T-cells in a single-inlet microfluidic chip, paving the way for lab-on-a-chip applications at the point of need. 相似文献
4.
Approximate analytic expressions for the diffusiophoretic velocity of a spherical colloidal particle
Hiroyuki Ohshima 《Electrophoresis》2022,43(5-6):752-756
The general expression is derived for the diffusiophoretic velocity of a spherical colloidal particle of radius a in a concentration gradient of symmetrical electrolyte. On the basis of this expression, simple approximate analytic expressions for the diffusiophoretic velocity correct up to the order of 1/κa is derived, where κ is the Debye-Hückel parameter. It is found that the approximate expression correct to order unity can be applied for κa ≥ 50 with negligible errors, while the approximate expression correct to order 1/κa can be applied for κa ≥ 20 with negligible errors. 相似文献
5.
Arash Mollahosseini Shaghayegh Saadati Amira Abdelrasoul 《Journal of computational chemistry》2022,43(1):57-73
Despite advances in the field, hemoincompatibility remains a critical issue for hemodialysis (HD) as interactions between various human blood constituents and the polymeric structure of HD membranes results in complications such as activation of immune system cascades. Adding hydrophilic polymer structures to the membranes is one modification approach that can decrease the extent of protein adsorption. This study conducted molecular dynamics (MD) simulations to understand the interactions between three human serum proteins (fibrinogen [FB], human serum albumin, and transferrin) and common HD membranes in untreated and modified forms. Poly(aryl ether sulfone) (PAES) and cellulose triacetate were used as the common dialyzer polymers, and membrane modifications were performed with 2-hydroxymethyl methacrylate (HEMA) and poly (2-methoxyethyl acrylate) (PMEA), using polydopamine-assisted co-deposition. The MD simulations were used as the framework for binding energy simulations, and molecular docking simulations were also performed to conduct molecular-level investigations between the two modifying polymers (HEMA and PMEA) and FB. Each of the three proteins acted differently with the membranes due to their unique nature and surface chemistry. The simulations show PMEA binds less intensively to FB with a higher number of hydrogen bonds, which reflects PMEA's superior performance compared to HEMA. The simulations suggest PAES membranes could be used in modified forms for blood-contact applications as they reflect the lowest binding energy to blood proteins. 相似文献
6.
通过光还原沉积法, 利用氧空位诱导作用, 在Ni掺杂的缺陷态TiO2纳米管阵列(TNT-Ni)上得到金属 Pd含量不同的Pd-TNT-Ni催化剂. 采用场发射扫描电子显微镜(SEM)、 X射线光电子能谱(XPS)、 紫外-可见 漫反射(UV-Vis DRS)、 表面光电压(SPV)、 光致发光光谱(PL)和电化学测试等表征手段, 探究了Pd与Ni掺杂的缺陷态TiO2纳米管阵列之间的强相互作用对其光吸收特性和载流子分离及传输效率的影响, 阐明了强相互 作用对材料光催化活性的调控机理, 提出了Pd增强Pd-TNT-Ni光催化性能的作用机理. 结果表明, 通过光还 原法制备的Pd纳米颗粒尺寸为10~20 nm的Pd120-TNT-Ni样品的光响应值为4.22 mA/cm2, 是未负载Pd样品光 响应值(1.14 mA/cm2)的3.7倍, 其具有最佳的平均产氢速率(5.16 mmol·g?1·h?1), 是TNT样品平均产氢速率 (0.45 mmol·g?1·h?1)的12倍, 表明Pd与缺陷态TiO2纳米管阵列之间的强相互作用驱动了载流子的分离及传输, 且Pd作为电子捕获势阱及反应活性位点, 显著提高了材料的光催化性能. 相似文献
7.
基于从头算分子动力学(Born-oppenheimer molecular dynamics, BOMD)模拟, 构建了环硝胺六氢-1,3,5-三硝基-1,3,5-三嗪(RDX)单分子不同振动模式之间的耦合矩阵, 并计算了在不同加载能量下从低频振动模式到高频振动模式的最优能量传输路径. 结果表明, RDX单分子中—NNO2基团更有利于能量局域化, 振动模式v3和v4在从低频振动模式到高频振动模式的能量传输过程中扮演着重要角色. 通过对v3和v4两个振动模式的进一步分析发现, 加载能量的不同会导致RDX单分子能量传输路径的不同. 当加载能量较低时, RDX单分子倾向于从低频振动模式到中频振动模式再到高频振动模式的能量传输路径; 当加载能量较高时, 能量更倾向于从低频振动模式直接传输到高频振动模式上. 揭示了RDX分子内振动耦合能量转移的微观机制, 为进一步探索RDX将“机械能”转化为“化学能”的微观过程提供了理论基础. 相似文献
8.
活性氧簇(ROS), 如过氧化氢, 在生物体内的各种生理和病理过程中发挥着重要作用. 生物体内活性氧簇水平的异常与多种疾病(炎症、 肿瘤和器官损伤等)密切相关, 使ROS监测成为研究和诊断这些疾病的重要工具. 目前, 实现活体内深组织中的活性氧簇成像仍然面临挑战. 本文设计并合成了一种响应型的19F磁共振成像(MRI)探针(Gd-DPBF), 并将其用于实现对活体内通用活性氧簇的检测和成像. 该探针由钆螯合物通过活性氧簇响应的芳香硼酸酯键与含氟砌块相连接构成. 体外和体内成像实验结果证实, 该探针可以实现在活体荷瘤小鼠中针对肿瘤中高表达的活性氧进行检测和成像, 展示了其在生物体内对活性氧簇相关生理过程进行深组织、 零生物背景成像方面的潜力. 相似文献
9.
碳酸酐酶作为一类在肿瘤中高表达的酶, 参与肿瘤组织中乏氧、 微酸性等环境的调节, 已成为肿瘤诊断与治疗的一类重要靶点. 本文简要概述了碳酸酐酶的生物学功能, 并总结了目前针对碳酸酐酶所构建的不同类型的分子探针, 以及其在肿瘤成像与治疗应用中的研究进展. 最后, 对靶向碳酸酐酶探针研究所面临的挑战和未来可能的研究方向进行了展望. 相似文献
10.
以能斯特方程为基础, 通过分析电流密度与氧化还原物种活度变化, 即载流子浓度变化的关系, 计算出有机半导体材料电极电势的变化, 从而建立起有机半导体前线轨道, 即最高占据分子轨道(HOMO)能级和最低未被占据分子轨道(LUMO)能级相对于热力学平衡态的能量位移随电流密度变化的数学关系. 进而依据能级能量位移引起的能隙变化, 提出了有机电致发光显示器(OLED)中“热激子”的产生机制. 相似文献