超临界苯类溶剂对聚苯乙烯降解的影响

在高压间歇反应器中,温度340~370℃,以苯、甲苯、乙苯和对二甲苯为超临界溶剂研究了聚苯乙烯(PS)的降解特性.苯类物质是聚苯乙烯的优良溶剂,在超临界条件下其优异的传质、传热性能使聚苯乙烯快速降解.聚苯乙烯在不同超临界溶剂中降解转化率相近,而降解产物组成差别很大,分析了不同超临界溶剂对聚苯乙烯降解过程的影响.结果表明超临界甲苯对降解过程影响最小,苯乙烯收率最高.聚苯乙烯降解过程中,高分子链断裂和解聚同时进行,结合连续分布理论建立了聚苯乙烯降解的动力学模型,得到在超临界甲苯中聚苯乙烯链端解聚活化能为138.4 kJ.mol-1.     

Synthesis, Crystal Structure and Photoluminescence of a 2D Two-fold Interpenetrating Cd(Ⅱ) Coordination Polymer Based on a Flexible Reduced Schiff Base Ligand

<正>By the reaction of cadmium chloride with a reduced Schiff base ligand (H_2L = N-(4- carboxybenzyl)-glycine), a novel Cd(II) compound [Cd(HL)_2]·4H_2O (1) has been obtained. Single-crystal X-ray diffraction analysis reveals that it crystallizes in orthorhombic, space group Pbcn with a = 13.9788(8), b = 24.4204(14), c = 13.9580(8), V = 4764.8(5)~3, Z = 8, M_r = 600.84, D_c = 1.675 g/cm~3, μ = 0.983 mm~(-1), F(000) = 2448, S = 1.084, R = 0.0806 and wR = 0.1705 (I > 2σ(I)). It displays a 2D two-fold interpenetrating structure. The Cd(II) ions are six-coordinated. The cross-linkage of Cd(II) ions by the bridge of HL anions results in a [Cd(HL)_2] layer. Every two [Cd(HL)_2]_n layers are penetrated with each other, resulting in a two-fold interpenetrating double-layer structure by π-π stacking interactions and hydrogen bonds. Such double-layers are further linked by hydrogen bonds into a supramolecular structure. Photoluminescent investigation shows that compound 1 displays strong emission in the purple region.     

柚皮素/β-环糊精超分子体系的包合行为

本文采用超声法制备了柚皮素（NAR）与β-环糊精（βCD）的包合物.粉末-X射线衍射（XRD）和红外吸收光谱（IR）测定均表明形成的包合物具有不同于主客体的新的结构性质.¹H NMR与ROESY核磁共振（NMR）实验表明NAR以苯环端从βCD的宽口端进入，并形成稳定的超分子包合物.量子化学计算分析NAR/βCD包合物的形成过程表明，驱动力源于焓驱动与氢键弱相互作用力；能隙和结合能分析得到的最优包合模式与NMR研究结果一致；ONIOM分层计算验证了上述结果.分子对接模拟出的最优包合模式也与量子化学计算、NMR的分析结果吻合.本文获取了清晰的NAR/βCD包合物构型及其形成机理，为该超分子药物的定量构效关系研究提供了理论参考.     

Quasi-normal modes of extremal black holes from hidden conformal symmetry

In this Letter, we construct the quasi-normal modes of three-dimensional extremal black holes in an algebraic way. We show that the infinite towers of the quasi-normal modes of scalar, vector and tensor could be constructed as the descendents of the highest weight modes. Our investigation shows that the hidden conformal symmetry suggested in Chen et al. (2010) [5] is an intrinsic property of the extremal black hole. Moreover, we notice that we need to fix the freedom in defining the local vector fields and find the right hidden conformal symmetry to obtain the physical quasi-normal modes.     

高龄老年男性腰椎骨密度独立相关因素的研究

目的 通过分析高龄老年（≥80岁）男性腰椎骨密度（LBMD）的独立相关因素,寻找提高高龄老年男性LBMD 的方法。方法 对1066例高龄老年男性进行LBMD测定、血液生化、骨代谢和生殖激素等指标的检测,运用多元回归分析筛选高龄老年男性LBMD 的独立相关因素。结果 高龄老年男性LBMD的独立相关因素有体重指数（β=0.018,P＜0.01）、I型胶原羧基端肽β特殊序列（β=-0.226,P＜0.01）、慢性阻塞性肺疾病（β=-0.047,P＜0.01）、雌二醇（β=0.002,P＜0.01）。结论 维持合理的体重指数和雌二醇水平,降低血清I型胶原羧基端肽β特殊序列水平,积极防治慢性阻塞性肺疾病,可能是提高高龄老年男性LBMD的重要方法。     

基于纳米探针的肿瘤细胞电化学传感研究进展

纳米材料在纳米尺度下具有独特的光、电、磁等性质,已广泛应用于细胞电化学传感的研究,该研究工作提高了肿瘤细胞检测的灵敏度与特异性,为癌症的早期诊断与治疗提供了新的方法与思路。本文综述了基于纳米探针进行肿瘤细胞电化学传感研究的工作,总结了纳米电化学细胞传感技术在肿瘤细胞固定、识别、检测及诱导凋亡等方面的研究进展,并对未来研究动向进行了展望。     

行波光电二极管级联阵列输出功率合成研究

针对未来光载无线通信所需的高功率、大带宽的光电探测器,提出了一种行波光电二极管级联阵列功率合成电路.先将行波光电二极管级联,再按照阵列式结构将多组级联的光电二极管组合起来,实现射频功率合成,以获得高功率、大带宽的射频信号.采用EDA工具,对该光电转换射频功率合成电路进行仿真模拟.仿真结果表明,该功率合成电路可以有效地将各光电二极管的射频输出信号进行功率合成,功率合成后的信号带宽显著增加,仿真结果与理论分析完全一致.此外,电路分析表明,增加该功率合成电路中的高阻微带线的特性阻抗可以有效提高其输出射频信号的带宽.     

单分子电泳:纳米孔道电化学的新认识

该文旨在从电泳分离技术的角度认识纳米孔道电化学单分子分析技术,这种技术可以作为"单分子电泳"来理解和研究。纳米孔道电化学单分子分析技术与电泳的本质都是采用外加电场使待测分子产生电迁移。待测分子性质不同,且与介质材料孔道外露基团相互作用不同,使得分子移动速度具有差异,据此实现分离识别。气单胞菌溶素（Aerolysin）纳米孔道,由于其孔径与待测分子尺寸相匹配,其孔道内壁可以看作是由氨基酸组成的具有调控单个分子电迁移能力的特异性孔道界面。每一个氨基酸残基都相当于一个探测单元,在电场力的作用下,待测分子逐一进入孔道时与每一个探测单元相互作用方式、程度与时长不同,从而形成了单个待测分子特征的迁移速度和迁移运动轨迹。在纳米孔道实验中,每秒可以有上千个待测分子穿过孔道,产生特征阻断电流信号。通过对这些信号的阻断电流、阻断时间、阻断频率、信号特征等进行统计分析,可以从"单分子电泳"水平对单个待测物实现高通量的分辨和识别。该文以Aerolysin纳米孔道分辨仅有一个核苷酸差异的寡聚核苷酸（5'-CAA-3'、5'-CAAA-3'、5'-CAAAA-3'）为例,详细阐述了纳米孔道"单分子电泳"的单核苷酸分辨能力,展现了电化学限域空间在电泳单分子水平分离技术上的应用。     

Synthesis,Spectroscopic Properties,and Photodynamic Anticancer Activities of Novel Arginine-modified Silicon(Ⅳ) Phthalocyanines

We design and synthesize a series of novel silicon(IV)phthalocyanines(SiPcs,1a,2a,1b,and 2b)axially conjugated with arginine or arginine-containing oligopeptides(Arg-Arg,Cys-Arg,Cys-Arg-Arg)through ester or ether linkers to demonstrate the effects of substituents and coupling ways on the spectral behaviors and photodynamic activities.The ester-linked SiPcs(1a and 2a)show slight red-shift,higher fluorescence emission and singlet oxygen generation compared to the ether-linked analogues(1b and 2b)due to the stronger electron-withdrawing ability of the ester group,suggesting that electronic effect of the linkers plays an important role in their spectral properties.The introduction of arginine could effectively reduce the aggregation of phthalocyanine in aqueous solutions.With higher cellular uptake and plasma membrane localization ability,1b and 2b exhibit significantly higher photocytotoxicity against both HepG2 and Hela cells.Moreover,the in vivo fluorescence imaging suggests that 2b is the most specific toward H22 tumor-bearing ICR mice,and it shows efficient tumor growth inhibition with the tumor inhibition rate up to 93%.Thus,this work would provide a new reference for the development of phthalocyanine-based photosensitizers.