3，3’-取代联苯和联萘骨架亚磷酰胺配体的合成

以2,2'-联苯酚和联二萘酚为原料,手性叔丁基亚磺酰硫酯为手性源,通过4步反应,合成了一类3,3'-手性叔丁基亚砜取代的亚磷酰胺类配体,其结构经1H NMR和31P NMR表征.     

Interaction of water-soluble calix[4]arene with l-tryptophan studied by fluorescence spectroscopy

The complexing ability of water-soluble calix[4]arene for l-tryptophan (l-try) was investigated by a variety of techniques. The spectrofluorometry titrations were performed at different temperatures to determine stability constants, as well as to evaluate the thermodynamic parameters of the obtained complex. The effect of pH on the complexation process was quantitatively assessed. Moreover, to obtain information about the binding mechanism of the interaction, ¹H NMR studies were carried out. Molecular modeling showed that water-soluble calix[4]arene accommodated part of l-amino acid in its cavity meanwhile the aliphatic chain of l-tryptophan stuck out of the cavity. Based on the experiment data, the association process of complexes was established. The water-soluble calix[4]arene was found to be able to adjust its conformation to fit the size of aromatic l-tryptophan, and the benzene ring of amino acid penetrated into the hydrophobic cavity of calix[4]arene.     

受限于纳米狭缝中的四缔合Lennard-Lones流体的相平衡和界面张力研究

分别用改进的基础测量理论和平均球近似理论表达短程作用和长程作用对四缔合Lennard-Jones流体的过剩自由能的贡献. 在密度函泛理论的框架下, 研究了平均密度等温线, 密度分布, 未缔合分子在平衡汽相和液相中的分布, 相平衡以及平衡时的界面张力等热力学性质. 分析了缔合能量, 流体-固体作用和孔宽对受限于纳米狭缝中的四缔合Lennard-Jones流体相行为的影响.     

A porphyrin derivative containing 2-(oxymethyl)pyridine units showing unexpected ratiometric fluorescent recognition of Zn2+ with high selectivity

A porphyrin derivative (1), containing two 2-(oxymethyl)pyridine units has been designed and synthesized as chemosensor for recognition of metal ions. Unlike many common porphyrin derivatives that show response to different heavy metal ions, compound 1 exhibits unexpected ratiometric fluorescence response to Zn²⁺ with high selectivity. The response of the novel chemosensor to zinc was based on the porphyrin metallation with cooperating effect of 2-(oxymethyl)pyridine units. The change of fluorescence of 1 was attributed to the formation of an inclusion complex between porphyrin ring and Zn²⁺ by 1:1 complex ratio (K = 1.04 × 10⁵), which has been utilized as the basis of the fabrication of the Zn²⁺-sensitive fluorescent chemosensor. The analytical performance characteristics of the proposed Zn²⁺-sensitive chemosensor were investigated. The sensor can be applied to the quantification of Zn²⁺ with a linear range covering from 3.2 × 10⁻⁷ to 1.8 × 10⁻⁴ M and a detection limit of 5.5 × 10⁻⁸ M. The experiment results show that the response behavior of 1 to Zn²⁺ is pH-independent in medium condition (pH 4.0-8.0) and show excellent selectivity for Zn²⁺ over transition metal cations.     

Protein surface recognition of the novel tetra-carboxylphenyl calix[4]arene to cytochrome c

The interaction of the novel tetra-carboxylphenyl calix[4]arene （TCPC） with the bovine heart cytochrome c （Cc） was first investigated by fluorescence spectroscopy and molecular modeling methods. The formation of a stable 1：1 complex was monitored by fluorescence titration, and its binding constant is 1.916 ×10^7 L mol^-1. Molecular modeling reveals the recognition mechanism of TCPC to the Cc surface, that is, the electrostatic interaction drives TCPC to the Cc surface, and the van der Waals interaction orientates TCPC parallel to the cleft of Cc.     

Acidity effects of Hβ zeolite on olefin alkylation of thiophenic sulfur in gasoline

Olefin alkylation of thiophenic sulfur process was carried out in model gasoline, using Hβ zeolites with different Si/Al2 ratios as catalysts. In particular, the influence of acid properties of Hβ zeolites on its catalytic ability for the thiophene alkylation, xylene alkylation and hexene oligomerization was investigated. The results showed that the acidity of the Hβ zeolite was increased with the decrease of Si/Al2 ratio, but its catalytic ability was not always increased. In fact, it reached the maximal catalytic ability at Si/Al2 ratio of 66, and under the reaction conditions of 60 ℃, 1.5 MPa, WHSV 3.0 h^-1 and time on stream 2 h. At the ratio, the conversion of thiophene, xylene, and oligomerized hexene were 96.6%, 2.7% and 2.8%, respectively. An optimal Si/Al2 ratio exists for the catalytic performance of Hβ zeolite. By investigating the coke deposition of the used Hβ zeolite catalysts, it has been found that the optimal Si/Al2 ratio is attributed to the combined effect of the carbocation activation capability and the hydrogen transformation capability of the Hβ zeolite catalyst.     

β-环糊精与青蒿素类药物非共价复合物的电喷雾质谱研究

采用电喷雾飞行时间质谱(ESI-TOF-MS)技术,对β-环糊精与3种青蒿素类药物所形成的复合物进行研究,在正离子检测方式下,将β-环糊精与青蒿素类药物等体积比混合后直接进样,然后利用源内碰撞诱导解离(CID)技术对其复合物进行分析.实验表明,在气相中,该非共价复合物可以稳定存在,其化学计量比分别为1∶ 1和2∶ 1.运用该法测定了1∶ 1包络物的结合常数,考察了质谱条件及溶液条件对形成包络物的影响,通过比较结合常数的大小,探讨了β-环糊精与青蒿素类药物在气相状态下的作用方式.     

元素改性对分子筛催化裂化性能的调变作用

1 催化裂化技术的重要性及存在的问题 1.1 催化裂化技术的重要性 催化裂化是指在石油炼制过程中, 在热和催化剂的作用下使重油发生裂化反应, 转化为裂化气、汽油和柴油等的过程. 从20世纪90年代开始, 随着世界原油的重质化和劣质化日趋严重, 而且市场对重质燃料的需求越来越少, 使重油催化裂化得以迅速发展. 据美国石油炼制协会统计, 目前重油催化裂化(RFCC)约占催化裂化总能力的25%, 并将逐年增加, 重油加工将成为21世纪催化裂化发展的重要方向.     

二肽链键联的卟啉-蒽醌化合物及其金属配合物的合成及其对DNA断裂的性质研究

采用微波辐射的方法合成了一类新型的二肽链键联的卟啉-蒽醌化合物及其金属锌配合物,用紫外-可见光谱、红外光谱、核磁共振光谱对两种新化合物的结构进行了表征.用碱裂解法提取PET28a质粒DNA,研究了两种新卟啉化合物对PET28a质粒DNA的断裂.电泳结果表明:目标化合物对DNA均有较好的断裂作用.     

静电纺丝技术与硫化技术相结合制备La2Fe2S5亚微米棒

采用静电纺丝技术制备了PVP/[La(NO3)3+Fe(NO3)3]复合纳米纤维,在700℃下焙烧得到LaFeO3纳米纤维,再以CS2作为硫源进行硫化,成功制备了La2Fe2S5亚微米棒。利用XRD,SEM,EDS,宽频介电松弛谱仪等现代分析手段对样品进行了表征。XRD分析表明:将LaFeO3纳米纤维在CS2气氛中于900℃焙烧4 h得到纯相的La2Fe2S5亚微米棒,属于正交晶系,空间群为A21am。SEM分析表明:La2Fe2S5呈亚微米棒结构,直径和长度分别为851±122 nm和3.25±0.99μm。电分析表明:La2Fe2S5亚微米棒是较好的半导体材料。