微波促进无溶剂条件下酯键型猪去氧胆酸分子钳的快速有效合成

在微波辐射无溶剂条件下, 以固体K2CO3为载体, 猪去氧胆酸甲酯与芳酰氯反应合成了11个猪去氧胆酸分子钳人工受体. 所有化合物的结构均经1H NMR, IR, MS及元素分析所确证. 同传统方法相比, 该法具有简单、快速、 有效、 对环境友好等优点. 同时考察了这类受体对芳胺和手性分子的识别性能. 结果表明, 这类分子钳受体不但对芳胺具有优良的识别性能, 而且对D/L-氨基酸甲酯具有对映选择性识别性能.     

分子钳人工受体研究进展

分子识别是生物体系的基本特征, 并在生命活动中起中心作用. 利用合成的人工受体与适当底物间的分子识别以建立化学模型或化学仿生体系对生命过程中的分子识别现象进行模拟研究是生物有机化学和超分子化学前沿富于挑战的课题之一. 按照不同的隔离基, 综述了分子钳人工受体的研究进展.     

新的芳酰肼分子钳人工受体的微波干法合成及其识别性能研究

在微波辐射无溶剂条件下,以间苯二酚为起始原料,固体K2CO3为载体,设计合成了9个新的芳杂环酰肼分子钳人工受体.其结构均经1HNMR,IR,MS及元素分析确证.同传统的方法相比,该法具有简单、快速、高效和对环境友好等优点.利用紫外可见分光光度滴定法初步考察了这类分子钳对卤素阴离子的识别性能.结果表明,该类分子钳对I-具有良好的选择性识别性能.     

Thermodynamic analysis for solubility of pimelic acid in ionic liquids

Based on the solubilities of pimelic acid in ionic liquids [EMIM][HSO₄], [PMIM]Br, [i-PMIM][HSO₄], [BMIM]Br, and [BMIM][HSO₄], dissolution enthalpy and dissolution entropy at different temperatures have been calculated. The experimental data of solubilities are correlated with the modified Apelblat equation. The thermodynamic properties of pimelic acid in ionic liquids were discussed. The solubilities correlated by the model are in good agreement with experimental data.     

高压剪切作用下三水铝石的结构稳定性

利用旋转式金刚石对顶砧压机(RDAC)结合显微激光拉曼光谱和微区X射线衍射,研究了三水铝石(γ-Al(OH)₃)在高压剪切作用下的结构稳定性。常温加压至1.5 GPa,旋转180°后,γ-Al(OH)₃的结构开始转变。初始样品在高波数段的4个羟基伸缩振动峰(3363、3434、3524和3618 cm^-1)相继消失,出现3303和3560 cm^-12个新峰。低波数段拉曼谱强度明显减弱,无非晶态宽峰;Al-O-Al变形振动双峰(568、539 cm^-1)和Al-O伸缩振动肩峰(321和307cm^-1)分别融合为一个振动峰;4个羟基变形振动峰(1052、1018、981和922 cm^-1)仍然可见。继续加压至3.5 GPa,旋转360°后卸至常压,高波数段新出现的两个羟基伸缩振动峰、原Al-O-Al变形振动峰和Al-O伸缩振动峰仍然可见。对比准静水压条件下γ-Al(OH)₃高压相的拉曼谱和相转变压力(约2.7 GPa),认为常温高压剪切作用下γ-Al(OH)₃脱羟基生成了H₂O和H₃O^-₂。卸压样品微区的X射线衍射谱进一步揭示,在高压剪切作用下,γ-Al(OH)₃的(OH)-Al-(OH)配位八面体骨架被破坏,沿c轴方向原子叠加的层间距缩小,对称性增强。这种不同于准静水压实验的结构改变来自腔体内压力的不均匀分布(0.5~4.5 GPa)。高压剪切作用下,三水铝石的结构稳定性研究对查明板块冷俯冲带中含水矿物的稳定性,推演俯冲板片的物理化学性质以及板块俯冲的速率具有重要意义。     

多重短程有序准化学模型:有序原子对的对立与统一

在准化学模型框架下, 假设有序原子对同时具有可区分与不可区分的双重属性, 首先构造了双重短程有序准化学模型, 然后讨论了该模型所能满足的各类理论极限. 经总结提炼, 提出了有序原子对的对立统一理论. 基于该理论, 进一步将双重短程有序准化学模型做了一般化推广, 开发了多重短程有序准化学模型. 该模型能够有效描述二元熔体中存在多重短程有序构型时的热力学行为. 选取了至少存在两重短程有序构型的Bi-K熔体来检验模型的合理性和可靠性. 结果表明, 除配位数外, 只需4个模型参数就能合理再现该二元熔体所有的热化学数据.     

Nano-formulations for transdermal drug delivery: A review

The different applications of nano-formulations (vesicles or nanoparticles and nanoemulsions) have been widely studied. Here, the classification, characteristics, transdermal mechanism, and application of the most popular nano-formulations in transdermal drug delivery system are reviewed.     

Aqueous-organic phase-transfer of highly stable gold, silver, and platinum nanoparticles and new route for fabrication of gold nanofilms at the oil/water interface and on solid supports

A simple but effective aqueous-organic phase-transfer method for gold, silver, and platinum nanoparticles was developed on the basis of the decrease of the PVP's solubility in water with the temperature increase. The present method is superior in the transfer efficiency of highly stable nanoparticles to the common phase-transfer methods. The gold, silver, and platinum nanoparticles transferred to the 1-butanol phase dispersed well, especially silver and platinum particles almost kept the previous particle size. Electrochemical synthesis of gold nanoparticles in an oil-water system was achieved by controlling the reaction temperature at 80 degrees C, which provides great conveniences for collecting metal particles at the oil/water interface and especially for fabricating dense metal nanoparticle films. A technique to fabricate gold nanofilms on solid supports was also established. The shapes and sizes of gold nanoparticles as the building blocks may be controllable through changing reaction conditions.