聚磺胺嘧啶修饰电极伏安法测定对乙酰氨基酚

利用循环伏安法制备了聚磺胺嘧啶修饰电极, 研究了对乙酰氨基酚在该修饰电极上的电化学行为. 该电极对对乙酰氨基酚有较强的电催化作用. 在pH 9.0的PBS缓冲溶液中, 用循环伏安法和差分脉冲伏安法在该电极上测定了对乙酰氨基酚, 其线性范围分别为4.0×10-6～3.0×10-4 mol/L和2.0×10-7～1.0×10-5 mol/L, 检出限分别为9.0×10-7 mol/L和8.0×10-8 mol/L.     

电活化玻碳电极差分脉冲溶出伏安法测定磺胺嘧啶

采用线性循环溶出伏安法和差分脉冲溶出伏安法对磺胺嘧啶在电活化玻碳电极上的电化学行为进行了研究。玻碳电极在PBS溶液中(pH 7.0),用恒电位法在1.7 V阳极氧化400 s,在B-R缓冲溶液中,磺胺嘧啶在1.02V(vs.Ag/AgCl)处有一良好的氧化峰,在0.02～0.25 V/s范围内,其氧化峰电流与扫描速率呈良好线性关系,表明电极过程为受吸附控制的不可逆过程。差分脉冲溶出伏安法的氧化峰电流(Ipa)与磺胺嘧啶浓度1×10-6～1×10-4mol/L范围内呈良好的线性关系(r=0.9977),检出限为8.7×10-7mol/L(S/N=3)。方法已用于分析磺胺嘧啶片剂的分析。     

毛细管电泳-电导法分离检测磺胺嘧啶、磺胺甲嘧啶和磺胺二甲嘧啶

磺胺嘧啶(SD)、磺胺甲嘧啶(SM)、磺胺二甲嘧啶(SM2)是常用的磺胺类药物[1],在结构上彼此只相差1个甲基(结构式见图1)。毛细管电泳(CE)由其高效、低耗、快速、环境友好等特点而成为药物分析中极具吸引力的分析方法[2-3]。近年来,文献报道采用CE方法分析磺胺药物均使用紫外检测[4     

磺胺嘧啶的电分析化学特性研究

采用循环伏安，脉冲极谱，计时库仑及计时电位等电化学测试技术研究了磺胺嘧啶的电分析化学特性。在ＰＨ２．０缓冲溶液中，ＳＤ于－０．６６Ｖ处产生一灵敏的示波极谱波，利用此波可测定微量ＳＤ，检测下限为２．４×１０＾－７ｍｏｌ／Ｌ。     

基于自组装与电聚合联用制备磺胺甲噁唑分子印迹传感器及特性研究

以磺胺甲噁唑为模板分子,甲基丙烯酸为功能单体,马来松香丙烯酸乙二醇脂为交联剂,采用自组装与电聚合相结合方法,制备了一种对磺胺甲噁唑具有特异性识别位点的分子印迹电化学传感器。通过循环伏安法(CV)、示差脉冲伏安法(DPV)和安培计时法(I-t)表征了该印迹传感膜的电化学性能。结果表明,该传感器具有良好的选择性和灵敏度。在5.0×10-6~2.4×10-3mol·L-1浓度范围内峰电流与浓度呈良好线性关系(R=0.9943);检测限1.67×10-7mol·L-1(S/N=3);达到稳定电流所用时间小于2s。利用此方法成功测定了药物中磺胺甲噁唑的含量。     

磺胺嘧啶锌含量的示波滴定

磺胺嘧啶锌是国家级新药，具有控制感染和促进创面愈合的双重功能。磺胺嘧啶锌化学名为N-2-嘧啶基-4-氨基苯磺酰胺锌盐，分子式为C20H18ZnN8O4S2，Mr为563．95。磺胺嘧啶锌含量的测定，药典中规定的标准方法为络合滴定法，用指示剂指示滴定终点。本文不用外加指示剂．采用示波滴定法获得了成功。示波滴定法是一类新的滴     

分子印迹化学发光传感器在线检测牛肉与鸡肉组织中残留的磺胺嘧啶

以分子印迹作为识别体,制成高灵敏度和高选择性的化学发光传感器在线检测牛肉与鸡肉组织中残留的磺胺嘧啶。磺胺嘧啶作为靶分子,通过悬浮聚合制备了1～10μm的分子印迹聚合物。将分子印迹聚合物装入聚四氟乙烯管中,作为固相萃取柱,并联在八通阀上,用于在线选择吸附磺胺嘧啶。在最佳条件下,测得磺胺嘧啶线性范围7.0×10–9～9.0×10–7g/mL,方法的检出限为(3σ)2×10–10g/mL,11次平行测定3.0×10–8g/mL的磺胺嘧啶溶液的化学发光强度相对标准偏差为3.4%。方法能够用于检测肉类产品中残留的磺胺嘧啶。     

用研磨电极研究Bi2O3的循环伏安行为

用研磨电极研究Bi2O3的循环伏安行为;微电极;氧化铋;循环伏安     

循环伏安法测定维生素B6

循环伏安法测定维生素B6;多壁碳纳米管;修饰玻碳电极;循环伏安法     

Ti基电极上光化学沉积Hg用于吸附溶出伏安法测定磺胺嘧啶

该研究发现采用紫外光照射钛电极表面氧化钛层能够光催化还原Hg2+生成Hg微粒,在Ti基电极上光化学沉积Hg比电化学沉积Hg对磺胺嘧啶具有更强的吸附作用,基于光化学沉积Hg/Ti电极建立了一种吸附溶出伏安法测定磺胺嘧啶的方法.详细考察了溶液pH值、吸附富集时间、溶出起始电位、扫描速率等对测定的影响.结果表明,在pH 2.0 的B-R缓冲溶液中,磺胺嘧啶在0.48 V左右处产生1个灵敏的氧化峰,其峰电流与磺胺嘧啶的浓度在1.2×10-8～1×10-6 mol/L范围内呈良好的线性关系(r=0.997 2),检出限达4.35 nmol/L.     

Carbonaceous species of TSP in urban and rural sites around coal-fired power stations in northwestern Greece

Total suspended particles from urban and rural locations around an industrial complex with four coal-fired power stations were collected for a period of 6 months (January-June 2001). Mass concentrations of TSP and carbonaceous species (TC, EC, OC and BC) were determined for seven sampling sites of the studied area. The contribution of TC mass to the total particle mass was similar for all sites with an average value of 12.36±1.27%. The fraction of elemental carbon (EC) was estimated between 32 and 46% of the total carbon (TC). The relationship between organic and elemental carbon showed the primary origin of organic carbon (direct emissions). The OC/BC ratio values were also considered in order to get information about the enrichment of aerosols in organic carbon. Four conditional categories out of the sampling site ‘collection were additionally extracted (“urban”, “rural”, “far” and “close” location to the power stations) and considered with respect to the values of the ratios OC/BC and OC/EC and the multiple correlation coefficients R² for the concentrations of OC, BC and EC. It has been found that in some cases the correlation coefficients rather than the ratios could inform on the type of site.     

THEORETICAL COMPARISON OF THE BONDING OF CHALCOCARBONYL LIGANDS

Abstract

Fenske-Hall molecular orbital calculations on the complexes CpFe(CO)₂(CX)⁺ (X = O, S, Se, and Te) have been used to quantify the nature of bonding between the CX ligands and the metal atom. In addition, conclusions have been reached about the reactivity of the complexes under both nucleophilic and electrophilic attack. The previously established trend of increasing metal—ligand bond strength as X changes from O to S to Se is demonstrated by our molecular orbital calculations, and found to extend to Te. The mechanism for nucleophilic attack, variously explained in the past by either charge control or orbital control, is quantitatively ascribed to orbital control only. The nature of electrophilic attack on these complexes is also found to begin with orbital control.     

多孔炭材料的研究进展及前景

近年来多孔炭材料在国内外的研究和开发应用都十分活跃。本文从制备原料的扩展, 形态特征的增多, 纳米空间的控制, 功能特性的改进, 微细组织的察, 应用途径的开拓等不同方面综述了多孔炭材料的研究和应用开发的新进展。     

Spiro-Carbon: A Metallic Carbon Allotrope Predicted from First Principles Calculations

A structurally stable microporous metallic carbon allotrope, poly(spiro[2.2]penta-1,4-diyne) or, for short, spiro-carbon, with I4₁/amd (D_4h) symmetry is predicted by first-principles calculations using density functional theory (DFT). The calculations of electronic, vibrational, and structural properties show that spiro-carbon has lower relative energy than other elusive carbon allotropes such as T-Carbon and 1-diamondyne (Y-Carbon). Its structure can be pictured as a set of trans-cisoid-polyacetylene chains tangled and interconnected together by sp³ carbon atoms. Calculations reveal a metallic electronic structure arising from an “intrinsic doping” of trans-cisoid-polyacetylene chains with sp³ carbon atoms. Possible synthetic routes and various simulated spectra (XRD, NMR, and IR absorption) are provided in order to guide future efforts to synthesize this novel material.     

Gasification of hydrolysis lignin with CO2 in the presence of Fe and Co compounds

The effect of the nature of the metal (Fe and Co) deposited on the surface of hydrolysis lignin, as well as the metal content (1, 3, 5 and 7 wt%), on the process of dry catalytic lignin reforming has been studied. The use of the catalyst led to a twofold increase in the conversion of carbon dioxide at temperatures of 500–800 °C, while both metals showed similar activity. The maximum specific catalytic effect is achieved when supporting 7 wt% of active metals.     

新型碳材料作为直接醇类燃料电池催化剂载体的评述

 电催化反应过程涉及固、液、气传输以及电子和质子传导, 为确保反应的顺利进行和提高催化剂中贵金属的利用率及延长催化剂的寿命, 理想的电催化剂载体必须同时具备高比表面积、导电性好、合适的孔结构、耐腐蚀以及合适的表面基团等. 为此, 碳载体的改性工作受到关注, 常用的方法是通过酸、碱、氧化和高分子等手段改变载体的结构和表面性质, 以期接近理想电催化剂载体的要求; 同时在开发新型碳载体方面做了更大量的工作. 本文简要评述了商品炭载体如碳黑 Vulcan XC-72R 以及其它的乙炔黑、黑珍珠-2000、Printex XE-2 和 Ketjen Black EC 等碳材料在直接醇燃料电池中的应用, 但对纳米碳纤维、碳纳米管、有序多孔碳、中间相碳小球、碳纳米角、碳纳米卷和碳气凝胶等新型碳载体则进行了较全面的评述. 与商品碳载体相比, 新型碳载体在一定程度上都表现出比 XC-72R 更优的性能, 这主要是因为新型碳材料具有特殊的结构、更高的结晶性能 (导电性) 和更好的传质能力.     

Applying diamond like carbon layer on carbon/carbon composites and its effect on the deposition of hydroxyapatite coating

The biomedical application of carbon/carbon (C/C) composites is limited by lacking bioactivity and releasing carbon debris. Hydroxyapatite (HA) coating has been used to improve the bioactivity of C/C composites, but it cannot reduce the release of carbon debris effectively because of poor wear resistance property. In this work, a wear‐resistant layer of diamond like carbon (DLC) is applied on C/C composites, followed by an ultrasound‐assisted electrochemical deposition to prepare HA coatings. The microstructure, morphology and chemical composition of the DLC layer and the HA coating are characterised by scanning electron microscopy, X‐ray diffraction, energy dispersive spectroscopy (EDS), X‐ray photoelectron spectroscopy, Fourier transformed infrared spectroscopy and Raman spectrum. The bonding strength between the HA coating and the DLC layer modified C/C composites is examined by a tensile test. The results show that the DLC layer has a spherical morphology and provides a uniform surface for the deposition of the HA coating. The HA coating shows flaky morphology with a compact structure. The tensile strength of the HA coating on the DLC layer modified C/C composites is 6.24 ± 0.40 MPa, which is significantly higher than that of HA coating on unmodified C/C composites(3.04 ± 0.20 MPa). Copyright © 2013 John Wiley & Sons, Ltd.     

炭材料对铀的吸附

铀既是核燃料的主要成分又是乏燃料后处理的关键核素。将铀从乏燃料后处理流程中的高放射性料液或者其他含铀废水中分离出来既可以将此宝贵的核燃料回收使用,又有利于降低乏燃料处理后期的处置费用,以及减少铀对环境的污染。而从海水、盐湖水、尾矿废水等贫铀水体中提取铀则可能是解决将来铀资源匮乏的主要方法。炭质材料具有较大的比表面积、较高的孔隙率,耐高温,抗辐射,对各种酸碱环境有很高稳定性,而且本身无毒,环境友好,有望作为吸附剂或固相萃取材料用于从水体中吸附分离铀。本文介绍了活性炭、介孔炭、碳纳米管等材料对铀的吸附研究进展。表面功能化可以提高炭材料对铀酰离子的吸附容量与选择性,对炭材料功能化的方法主要有表面氧化、浸渍、负载和接枝等手段。由于化学稳定性高,采用化学方法在炭材料表面接枝功能分子是具有应用前景的研究方向。采用碳纤维作电极,电吸附铀的方法可以大量地从水溶液中将铀吸附到电极表面,再通过电脱附回收铀,具有工业化应用前景。     

多色荧光碳点的制备新进展

碳点(碳量子点)是在紫外-可见光吸收区域具有有效吸收的、可多色发光的新型碳纳米材料,在生物医学、环境能源和催化领域有着重要的研究应用前景。但是,在过去的10年中,无论是自上而下还是自下而上的方法,所制备碳点的发光大部分集中在蓝光-橙光范围。最近,随着制备方法的改进,有多种方法制备出了红光或近红外发光的碳点。本文简述了近3年来各类代表性的制备碳点的方法,并主要介绍了红光或近红外发光碳点的制备新进展。     

诺贝尔奖宠儿——碳元素的前世今生

碳元素历史悠久,与现代人类社会联系紧密,对人类未来意义重大,多次斩获诺贝尔奖。在揭开碳元素的发现史之后,介绍了活性炭、碳纤维、玻璃碳等无定形碳以及热解炭等过渡碳的重要作用。此外,晶形碳的经典同素异形体--C60富勒烯、碳纳米管、石墨烯的独特结构造就了其在纳米材料领域的非凡用途;新型同素异形体的合成、发现与应用更是碳元素研究领域的热点。