长光路光度法测定中药材中痕量硒

本文研究了用长光路光度法测定痕量硒。在酸性溶液中，Ｓｅ（Ⅳ）催化ＫＣｌＯ３氧化苯肼成偶氮离子，继而与变色酸生成红色偶氮化合物。硒含量在１．０×１０－９～２．０×１０－７ｇ／ｍＬ范围内遵守比尔定律。巯基棉分离后，测定中药材中总硒，获得满意结果。     

Excellent electrochemical performance of nitrogen-enriched hierarchical porous carbon electrodes prepared using nano-CaCO3 as template

Recently, tremendous research efforts have been concentrated on developing high-performance electrode materials to meet the ever-increasing energy and power demands in supercapacitors. Herein, we presented a high-capacity supercapacitor material based on nitrogen-enriched hierarchical porous carbons (NHPCs) synthesized by the carbonization of melamine formaldehyde resins using eco-friendly and inexpensive nano-CaCO₃ as template. The effects of carbonization temperature and template content on the porous structure and electrochemical characteristics were compared and discussed in detail. The prepared NHPCs possessed large surface area up to 834 m² g^?1 and high nitrogen content up to 20.94 wt %. As electrode material for supercapacitors, NHPCs exhibited superior electrochemical performances with high specific capacitance (190 F g^?1 at 20 A g^?1), outstanding rate capability (80 %), and excellent cycling stability (over 2,000 cycles at 5 A g^?1) in 1 M sulfuric acid media. The excellent electrochemical performances are due to the synergic effects of unique hierarchical porous microstructure, abundant nitrogen and oxygen functionalities, as well as high degree of graphitization framework.     

A SERS-based immunoassay for porcine circovirus type 2 using multi-branched gold nanoparticles

We report on a facile immunoassay for porcine circovirus type 2 (PCV2) based on surface enhanced Raman scattering (SERS) using multi-branched gold nanoparticles (mb-AuNPs) as substrates. The mb-AuNPs in the immunosensor act as Raman reporters and were prepared via Tris base-induced reduction and subsequent reaction with p-mercaptobenzoic acid (pMBA). They possess good stability and high SERS activity. Subsequently, the modified mb-AuNPs were covalently conjugated to the monoclonal antibody (McAb) against the PCV2 cap protein to form SERS immuno nanoprobes. These were captured in a microtiterplate via a immunoreaction in the presence of target antigens. The effects of antibody concentration, reaction time and temperature on the sensitivity of the immunoassay were investigated. Under optimized assay conditions, the Raman signal intensity at 1,076 cm^?1 increases logarithmically with the concentrations of PCV2 in the concentration ranging from 8?×?10² to 8?×?10⁶ copies per mL. The limit of detection is 8?×?10² copies per mL. Compared to conventional detecting methods such as those based on PCR, the method presented here is rapid, facile and very sensitive.

A novel method for the analysis of calf thymus DNA based on CdTe quantum dots-Ru(bpy) 3 2+ photoinduced electron transfer system

A method has been developed for the rapid determination of calf thymus (ct) DNA that is based on the photoinduced electron transfer (PET) that occurs between CdTe quantum dots and the ruthenium(II)tris-bipyridyl complex. The latter quenches the photoluminescence (PL) of the quantum dots through PET. The Stern-Volmer quenching constant is 2,500 L?mol^?1. The intensity of the PL the system is recovered in the presence of ct DNA, and relative recovered PL intensity is linearly proportional to the concentration of ct-DNA. The dynamic range is from 17?µM to 1.5 mM of DNA, and the detection limit (at S/N?=?3) is 5.7?µM. The relative standard deviation (at 0.5 mM of ct-DNA) is 4.1% (n?=?11). A possible reaction mechanism is discussed.     

Clean Synthesis of an Economical 3D Nanochain Network of PdCu Alloy with Enhanced Electrocatalytic Performance towards Ethanol Oxidation

A one‐pot method for the fast synthesis of a 3D nanochain network (NNC) of PdCu alloy without any surfactants is described. The composition of the as‐prepared PdCu alloy catalysts can be precisely controlled by changing the precursor ratio of Pd to Cu. First, the Cu content changes the electronic structure of Pd in the 3D NNC of PdCu alloy. Second, the 3D network structure offers large open pores, high surface areas, and self‐supported properties. Third, the surfactant‐free strategy results in a relatively clean surface. These factors all contribute to better electrocatalytic activity and durability towards ethanol oxidation. Moreover, the use of copper in the alloy lowers the price of the catalyst by replacing the noble metal palladium with non‐noble metal copper. The composition‐optimized Pd₈₀Cu₂₀ alloy in the 3D NNC catalyst shows an increased electrochemically active surface area (80.95 m² g^?1) and a 3.62‐fold enhancement of mass activity (6.16 A mg^?1) over a commercial Pd/C catalyst.     

Synthesis and spectroscopic characterization of water-soluble Mn-doped ZnO(x)S(1-x) quantum dots

A non-cadmium and water-soluble Mn-doped ZnO(x)S(1-x) QDs was synthesized with denatured bovine serum albumin (dBSA) as stabilizer under nitrogen atmosphere, and the as-prepared products were characterized by X-ray powder diffraction (XRD), UV-vis absorption spectroscopy, fluorescence (FL) emission spectroscopy, high resolution transmission electronmicroscopy (HRTEM) and Raman spectrum. XRD patterns indicate that the Mn-doped ZnO(x)S(1-x) QDs have a zinc-blende structure, and that manganese emerges in the form of divalent manganese (Mn(2+)) and trivalent manganese (Mn(3+)) (the intermediate of the reaction). The size of Mn-doped ZnO(x)S(1-x) QDs is about 3.2±0.7 nm according to HRTEM imaging. The FL spectra reveal that the Mn-doped ZnO(x)S(1-x) QDs have two distinct emission bands: the defect-related emission and the Mn(2+)-related emission, which exhibit a competing process. A good FL signal of the transition of Mn(2+) ((4)T(1)-(6)A(1)) is observed when the doping amounts are 1.0% and 20% respectively, and the as-prepared solutions are stable for more than 6 months at 4°C. This method has the advantages of good stability and environment-friendly stabilizer, for involving no heavy metal ions or toxic reagents.     

A new function of graphene oxide emerges: inactivating phytopathogenic bacterium Xanthomonas oryzae pv. Oryzae

The main goal of the present work is to examine the effect of graphene layers on the structural and dynamical properties of polymer systems. We study hybrid poly(methyl methacrylate) (PMMA)/graphene interfacial systems, through detailed atomistic molecular dynamics simulations. In order to characterize the interface, various properties related to density, structure and dynamics of polymer chains are calculated, as a function of the distance from the substrate. A series of different hybrid systems, with width ranging between 2.60 and 13.35 nm, are being modeled. In addition, we compare the properties of the macromolecular chains to the properties of the corresponding bulk system at the same temperature. We observe a strong effect of graphene layers on both structure and dynamics of the PMMA chains. Furthermore, the PMMA/graphene interface is characterized by different length scales, depending on the actual property we probe: density of PMMA polymer chains is larger than the bulk value, for polymer chains close to graphene layers up to distances of about 1.0–1.5 nm. Chain conformations are perturbed for distances up to about 2–3 radius of gyration from graphene. Segmental dynamics of PMMA is much slower close to the solid layers up to about 2–3 nm. Finally, terminal-chain dynamics is slower, compared to the bulk one, up to distances of about 5–7 radius of gyration.     

碳模板诱导生长Fe-Nx活性位点

能源危机和环境恶化是当今社会面临的巨大挑战. 燃料电池作为一种高效、清洁的发电装置,受到了社会各界特别是新能源行业的高度关注. 尤其是, 日本丰田推出Mirai燃料电池汽车量产上市计划, 把燃料电池及其关键技术发展推向了一个新的发展纪元. 然而, 制约燃料电池走向大规模商业化的核心问题依然是其综合性能不具竞争力. 其中, 氧电极的缓慢动力学以及贵金属Pt的有限资源、高昂成本等是关键所在, 因此, 亟待实现高性能非贵金属催化剂的突破.近年来, 大量研究表明, Fe-Nx掺杂的碳催化剂具有极大的代Pt潜力, 研究者们尝试各种手段进行开发,如: 调控Fe化合物及N前驱体的类型与添加量, 改变温度、压力等合成条件, 采用轴向配位体连接、共价接枝、球磨等非热解路线, 构建核壳、有序介孔碳、阵列、类石墨烯薄片、多孔碳等碳纳米结构, 制备石墨烯/碳纳米管、石墨烯/碳黑、碳纳米带/碳纳米管、碳纳米颗粒/碳纤维、碳球/碳纳米管/石墨烯等复合材料, 进行酸洗、造孔、二次加热等后处理, 调控不同类型Fe物种相生成等. 此外, EXAFS及M?ssbauer等谱学技术已经证实Fe-Nx特别是Fe-N4为强活性位点. 因此, 有待提出合理策略以促进非贵金属碳催化剂中Fe-Nx强活性位点的高密度掺杂.本文提出了一种碳模板诱导Fe-Nx活性位点生长的方法即通过高温热解含有Fe盐的三聚氰胺前驱体混合物, 成功制备 了Fe-Nx掺杂的碳催化剂, 并结合多种表征技术证实了碳模板对制备碳催化剂结构组成及电化学性能的影响. 形貌结果说明, 碳模板的引入有利于Fe、N化合物的均匀吸附以至于Fe基纳米颗粒的均一成核, 促使竹状碳纳米管在碳模板表面以及中间均一生长; 氮气吸脱附及孔径分布曲线显示, 引入碳模板形成的复合材料较单一的碳纳米管和碳黑材料具有提高的比表面积和总孔体积, 说明复合材料中存在两种单体的有效协同; M?ssbauer、XPS及XRD测试数据证实, 碳模板可以调控Fe、N两种元素的耦合方式, 能够抑制金属Fe和Fe碳化物等非活性Fe物种的生成、诱导Fe-N4和其它Fe氮化物等强活性Fe-Nx物种的生长. 电化学测试数据表明, 复合材料具有提升的面积活性和质量活性, 且TOF值明显提高, 说明碳模板的引入增强了Fe-Nx位点的本征活性; 此外, 复合材料的氧还原过程为高效的4e-途径, 且较商业Pt/C催化剂表现出了优异的循环稳定性和甲醇耐受性.     

A novel method for the determination of Pb2+ based on the quenching of the fluorescence of CdTe quantum dots

A novel method for the determination of Pb²⁺ has been developed based on quenching of the fluorescence of thiol-capped CdTe quantum dots (QDs) by Pb²⁺ in aqueous solutions. Under optimum conditions, the relative fluorescence intensity was linearly proportional to the concentration of Pb²⁺ between 2.0 × 10⁻⁶ and 1.0 × 10⁻⁴ mol L⁻¹ with a detection limit of 2.7 × 10⁻⁷ mol L⁻¹. The relative standard deviation (RSD) was 4.6% for a 4.0 × 10⁻⁵ mol L⁻¹ Pb²⁺ solution (N = 5). As an application, the proposed method was successfully applied to the analysis of Pb²⁺ in food samples, and the results were satisfactory, i.e. consistent with those of flame atomic absorption spectrometry (FAAS). Correspondence: Heyou Han, College of Science, Institute of Chemical Biology, State Key Laboratory of Agricultural Microbiology, Huazhong Agricultural University, Wuhan 430070, P.R. China     

多吡啶钌(Ⅱ)配合物化学发光性质研究

详细研究了Ru(bpy)3^2+,Ru(bpy)2(dppx)^2+,Ru(bpy)2(dppz)^2+,Ru(phen)3^2+,Ru(phen)2(dppx)^2+和Ru(phen)2(dppz)^2+六个多吡啶钌(Ⅱ)配合物的化学发光性质,筛选出Ru(bpy)3^2+和Ru(phen)3^2+两种性能优良的化学发光试剂;并探讨了它们发光的可能机理和影响因素,为钌(Ⅱ)配合物在化学发光分析中的应用提供了可供参考的理论依据。