Catalytic activities of NHC‐PdCl2 species based on functionalized tetradentate imidazolium salt in three types of C‐C coupling reactions

A functionalized tetradentate imidazolium salt 9,10‐bis{di[2′‐(N‐ethylimidazolium‐1‐yl)ethyl]aminomethyl}anthracene tetrakis(hexafluorophosphate) ( 1 ) has been synthesized and characterized. The catalytic activity of the NHC‐PdCl₂ species formed by compound 1 and PdCl₂ was tested in Suzuki‐Miyaura, Heck‐Mizoroki and Sonogashira reactions. The results showed that this catalytic system was effective for above three types of C‐C coupling reactions.     

石墨烯材料生物降解的策略研究

自2004年被发现以来,前沿新材料石墨烯及其衍生物由于其独特的电学、光学和力学性能被广泛关注,在许多领域都展露了光彩,包括新型电池、传感器、新能源和生物医学等领域,尤其在生物医药领域发展迅速.石墨烯及其衍生物良好的生物相容性使其在生物领域中具有重要的应用前景.为了实现石墨烯材料的体内应用,材料的可降解性是值得深入研究的焦点,研究其生物降解行为有助于提高其对环境、生命系统的安全性.到目前为止,石墨烯的生物降解研究主要集中在材料的生物酶促降解,利用一系列方法如异质原子掺杂、表面功能化修饰等对石墨烯材料进行改性,可以调控石墨烯材料的降解.综述了近年来石墨烯材料及其衍生物在生物应用上的降解的研究进展,重点介绍石墨烯的酶促降解和其在生物医学领域的应用前景,为进一步促进石墨烯材料的体内研究提供重要的研究基础和指导意义.     

CdS/SiO2纳米复合材料的合成及光学性能

以合成的丙氨酸镉为纳米粒子的前驱体,在不加酸或碱性催化剂的条件下,利用丙氨酸镉分子中的胺基催化硅氧烷水解缩合生成二氧化硅,同时将丙氨酸镉均匀地引入到二氧化硅的内部,通过硫化原位生成硫化镉纳米颗粒,制得硫化镉/二氧化硅(CdS/SiO2)纳米复合材料.用傅里叶变换红外光谱、核磁共振氢谱、紫外-可见光谱、荧光显微镜和透射电子显微镜等方法对CdS/SiO2复合材料进行表征,结果表明,硫化镉粒子均匀分布在二氧化硅内部,使其具有良好的荧光特性.     

超临界二氧化碳偶合超声预处理强化玉米秸秆酶水解(英)

提出了一个木质纤维素生物质预处理的全绿色加工过程.以玉米秸秆和玉米芯为原料,以超临界CO₂和超声偶合法对木质纤维素进行预处理.超临界CO₂预处理条件为:压力15-25 MPa,温度120₁70℃,含水量50%,反应时间0.5₄ h.超声场功率600W,温度80℃,作用时间2-8 h.用纤维素酶水解反应获得的还原糖总量来评价预处理效果.结果表明,单纯超临界CO₂和超临界CO₂偶合超声预处理都能够提高生物质水解反应还原糖产量.对于玉米芯,超临界CO₂预处理（170℃,20 MPa,3 0min）后,还原糖产率为62%（未预处理的为12%）.对于玉米秸秆（170℃,20 MPa,2.5 h）,还原糖产率为46.4%.对于玉米芯,超临界CO₂偶合超声预处理（600 W,80℃下超声处理6 h,然后用170℃,20 MPa超临界CO₂预处理30 min）后,还原糖产率为87%.对于玉米秸秆,超临界CO₂偶合超声预处理（600 W,80℃下超声处理8 h,然后用170℃,20 MPa超临界CO₂预处理1 h）后,还原糖产率为25.5%.与未处理生物质相比,X射线衍射结果表明玉米秸秆和玉米芯在超临界CO₂和超声预处理后其结晶度没有明显变化.扫描电镜分析则发现木质纤维素的表面积显著增加.     

键合型手性固定相的研究进展

手性分离在生物医药等领域具有重要意义。高效液相色谱(HPLC)因其经济、快速、高效等特点被广泛应用于手性化合物的分离分析中。手性固定相(CSP)是HPLC实现手性分离的核心,而制备有效CSP的关键在于手性选择剂的筛选。近年来,大量文献报道了新型CSPs的制备,其中键合型CSPs因具有溶剂耐受性和较高稳定性等优点受到了广泛关注。该文对近年来以手性单分子、多糖、环糊精、大环抗生素、冠醚、杯芳烃及生物碱等为手性选择剂制备的新型键合型CSPs进行了归纳整理,并对其发展前景进行了展望。     

四氯化碳液相催化加氢制氯仿多元金属催化剂的制备及其催化性能

以贵金属M(=Pd,Pt)为主要活性成分,掺加过渡金属Fe和Ni作为助剂,采取浸渍和氢气还原法制备了椰壳活性炭(ACcs)负载的单元金属(M/ACcs)、二元金属(M-Ni/ACcs、M-Fe/ACcs)和三元金属(M-Ni-Fe/ACcs)系列催化剂;通过CC_l4液相催化加氢制氯仿反应考察了这些催化剂的催化活性和选择性。结果表明,Pd基催化剂的催化活性明显高于Pt基催化剂,但后者对氯仿的选择性优于前者;在前5 h加氢反应时段,两系列催化剂的活性顺序为:Pd-Ni-Fe/ACcsPd-Fe/ACcsPd/ACcsPd-Ni/ACcs和Pt/ACcs≈Pt-Fe/ACcsPt-Ni/ACcsPt-Ni-Fe/ACcs;总体上,引入Fe对于催化性能的改善效果要优于Ni,Ni的单独引入则会不同程度地降低催化活性。综合考量成本、活性和选择性等因素,优选Pd-Ni-Fe/ACcs作为催化剂,在393 K下反应5 h,可实现CC_l497.6%的转化率以及接近100%氯仿的选择性。     

高效液相色谱-飞行时间质谱联用法分析人参及人参皂苷与山楂配伍过程中的水解行为

利用高效液相色谱-飞行时间质谱联用的方法,分别对人参配伍山楂前后人参皂苷的变化进行分析,同时对人参皂苷Re、Rg1、Rb1、Rd与山楂配伍的水解规律进行系统研究,并与单独煎煮液、仿山楂配伍pH值煎煮液的水解产物进行比较,结果发现人参与山楂配伍后人参皂苷Rg1、Rb1含量明显减少,而人参皂苷Re、Rd、Rg2、Rg3、F2、Rh1含量明显增加,其中人参皂苷Re与山楂配伍后水解产物为人参皂苷20(R)-Rg2、20(S)-Rg2,仿山楂配伍pH值水解产物为人参皂苷20(R)-Rg2、20(S)-Rg2、Rg4、Rg6;人参皂苷Rg1与山楂配伍后水解产物为20(S)-Rh1、20(R)-Rh1,仿山楂pH值水解产物为20(S)-Rh1、20(R)-Rh1、Rh4、Rk3;人参皂苷Rb1与山楂配伍后水解产物为Rd、20(S)-Rg3,仿山楂pH值水解产物为F2、20(S)-Rg3;人参皂苷Rd与山楂配伍后水解产物为F2、20(S)-Rg3、20(R)-Rg3,仿山楂pH值水解产物为20(S)-Rg3、20(R)-Rg3。研究表明,不同人参皂苷和山楂配伍后与仿山楂pH值的水解产物并不相同,人参与山楂配伍改变了人参皂苷成分的种类及含量。本研究为临床方剂中人参与山楂配伍后成分的变化提供物质基础数据。     

Fabrication of Nb2O5/C nanocomposites as a high performance anode for lithium ion battery

Nb₂O₅/C nanosheets are successfully prepared through a mixing process and followed by heating treatment.Such Nb₂O₅/C based electrode exhibits high rate performance and remarkable cycling ability, showing a high and stable specific capacity of ~380 mAh g^-1 at the current density of 50 mA g^-1(much higher than the theoretical capacity of Nb₂O₅).Further more,at a current density of 500 mA g^-1,the nanocomposites electrode still exhibits a specific capacity of above 150 mAh g^-1 after 100 cycles.These results suggest the Nb₂O₅/C nanocomposite is a high performance anode material for lithium-ion batteries.     

Synthesis and biological evaluation of oxoapratoxin E and its C30 epimer

30R- and 30S-oxazoline analogues of apratoxin E have been prepared with late-stage formation of an oxazoline ring. These two compounds have a potent inhibitory effect on HCT-116 cell proliferation with IC₅₀ values of 345 and 638 nM, respectively. These results suggest that apratoxin E oxazoline bioisosteres are approximately 6-fold less potent than their thiazoline parent compounds. A positive impact of the 30R conformation on antiproliferative activity was also observed, with approximately 2-fold enhancement when compared to the 30S epimer.     

Ag@C core–shell structure composites-decorated Ag nanoparticles: zero current potentiometry for detection of hydrogen peroxide

Ag@C core–shell structure composites were successfully synthesized by hydrothermal method, and then Ag nanoparticles were decorated on the surface of Ag@C by reduction of AgNO₃. The morphology, composition and structure of the Ag@C@Ag composites were characterized by scanning electron microscopy (SEM), energy dispersive spectrometry (EDS) and X-ray diffraction (XRD). Cyclic voltammetry and amperometry were used to evaluate the electrocatalytic performance of the Ag@C@Ag/GCE for detection of H₂O₂. Meanwhile, a new electrochemical method of zero current potentiometry was used for electrochemical detection of H₂O₂. The linear range and the detection limit were from 0.2 to 10, and 0.07 μM, respectively.