Sensitive Voltammetric Determination of Captopril Using a Carbon Paste Electrode Modified with Nano-TiO_2/Ferrocene Carboxylic Acid

A carbon paste electrode (CPE) modified with ferrocene carboxylic acid (FcCA) and TiO2 nanoparticles was constructed by incorporating TiO2 nanoparticles and ferrocene carboxylic acid into the carbon paste matrix. The electrochemical behavior of captopril (CAP) at the surface of the modified electrode was investigated using electroanalytical methods. The modified electrode showed excellent electrocatalytic activity for the oxidation of CAP in aqueous solutions at physiological pH values. Cyclic voltammetric curves showed that the oxidation of CAP at the surface of the modified electrode reduced its overpotential by more than 290 mV. The modified electrode was used for detecting captopril using cyclic voltammetry and square wave voltammetry techniques. A calibration curve in the range of 0.03 to 2400 μmol/L was obtained that had a detection limit of 0.0096 μmol/L (3?) under the optimized conditions. The modified electrode was successfully used for the determination of captopril in pharmaceutical and biological samples.

Preparation of Nano-SiO_2/Amino-modified Polysiloxane Hybrid Superhydrophobic Coating and Thermal-stability Characterization

We put forward a large-area and cost-effective method to fabricate superhydrophobic coating by introducing in-situ functionalized nano-SiO2 into side-amino modified hydroxy-terminated polydimethylsiloxane （SA-HTPDMS） curing system. With the characterization using water contact angle （WCA） tester, Fourier transform infrared spectroscopy （FTIR）, scanning electron microscope （SEM）, atomic force microscopy （AFM） and simultaneous thermal analysis, the as-prepared coating displayed a tremendous WCA of 154.8±1°, sliding angle （SA） about 3.5° and stable self-cleaning property range from -10 to 80 ℃. It was also found that the synergistic effect of surface micro-nano hierarchical structure and chemical hydrophobicity, stability from matrix had made contributions to the superhydrophobicity and excellent heat resistance up to 300 ℃.

Preparation of Nano-Modified Polyacrylamide and Its Application on Solid-Liquid Separation in Waste Drilling Mud

To satisfy the requirement on solid-liquid separation in high-density waste drilling mud, prepare the nano-modified polyacrylamide(PAM) flocculant for high density waste drilling mud by in-situ dispersion method, direct dispersion method and simultaneous formation method. The result showed the flocculent effect of nano-modified polyacrylamide prepared by simultaneous formation method was the best. When the content of water glass and acrylamide(AM) were respectively 3% and 15% , reaction temperature was 60?C and reaction time was 3h, the performance of product was the best. The water content in filter cake was 24.32% after the waste drilling mud disposed by the optimization flocculant. The flocculent effect of optimization flocculant was superior to that of other flocculant in market.

TPU/Nano-ZnO复合改性沥青的性能研究及微观机制

为促进聚合物/纳米改性沥青在耐久性路面中的应用,在实验室将不同掺量的聚氨酯及纳米氧化锌添加到A-70#基质沥青中制备了复合改性沥青。采用传统物理性能试验、动态剪切流变试验(DSR)、弯曲梁流变试验(BBR)研究了其物理性能与流变特性,基于响应面法的优化设计来明确两种改性剂的最佳掺量。借助傅里叶红外光谱试验(FTIR)对其微观改性机理进行探讨。采用高压紫外汞灯环境箱对改性沥青进行不同时间的紫外老化,分析其抗紫外老化能力,并基于主成分分析法评价了老化性能测试指标的显著性。结果表明:聚氨酯与纳米氧化锌的共同作用提高了基质沥青的高温稳定性及低温抗裂性,两种改性剂的最佳掺量分别为5%、3%。根据FTIR结果,复合改性沥青的改性过程既存在物理共混,又有化学加成反应。聚氨酯及纳米氧化锌的加入在基质沥青紫外老化过程中能够抑制羰基、亚砜基等极性基团的生成,复数剪切模量、羰基指数、劲度模量及亚砜基指数对沥青紫外老化性能的影响最为显著。

Direct Synthesis of Al_2O_3-modified Li(Ni_(0.5)Co_(0.2)Mn_(0.3))O_2 Cathode Materials for Lithium Ion Batteries

To improve the cyclic stability at high temperature and thermal stability, the spherical Al2O3-modified Li（Ni0.5Co0.2Mn0.3）O2 was synthesized by a modified co-precipitation method, and the physical and electrochemical properties were studied. The TEM images showed that Li（Ni0.5Co0.2Mn0.3）O2 was modified successfully with nano-Al2O3. The discharge capacity retention of Al2O3-modified Li（Ni0.5Co0.2Mn0.3）O2 maintained about 99% after 200 cycles at high temperature（55 ℃）, while that of the bare one was only 86%. Also, unlike bare Li（Ni0.5Co0.2Mn0.3）O2, the Al2O3-modified material cathode exhibited good thermal stability.

Nano-SiO_(2)/UP复合改性沥青配方研究

一般的UP固化物往往存在韧性较差等问题,需要对其进行增韧改性。鉴于nano-SiO_(2)/UP复合材料表现出的优异力学性能,且目前未见有研究将其用于改性沥青,对nano-SiO_(2)/UP复合改性沥青的配方(包括nano-SiO_(2)的种类、各类添加剂的掺量等)进行研究,通过拉伸试验、离析试验等确定出nano-SiO_(2)/UP复合改性沥青的最优配比。研究结果表明:nano-SiO_(2)/UP复合改性沥青中的A组分和B组分应由“先掺法”进行制备,其中A组分为UP、引发剂、偶联剂,B组分是由沥青、相容剂等外加剂组成的混合成分;其最优配比为m(A组分)∶m(B组分)=1∶2.6,其中A组分的成分为m(树脂)∶m(A型nano-SiO_(2))∶m(引发剂)∶m(偶联剂)=100∶3∶4∶3, B组分的构成为m(沥青)∶m(相容剂)=100∶4。

Electrochemical Behavior and Its Electrocatalytic Activity of A P-Mo Heteropolyanion Modified ITO Electrode

s: A new method for the preparation of an organic-inorganic composite film of the heteropolyanion has been developed by modifying P(Mo2O7)6-7 to the indium tin oxide (ITO) electrode surface. The modified electrode displayed a strong catalytic activity towards the reduction of IO3-. In the range of 1.0?0-6~5?0-4mol/L, the catalytic current was linear proportional to the IO3- concentration.

Evaluation of Uncertainty in Measuring the Content of CaM V35S Promoter in Genetically Modified Soybean,GTS40-3-2,by Real-time Quantitative PCR

[ Objective ] This study aimed to investigate the major contributors to the measurement uncertainty in quantitative analysis of genetically modified ingreclients and improve the quality of quantitative detection of genetically modified components. [ Method] The content of CaMV35S promoter （parameter） in GTS40- 3-2 soybean powder samples was measured to estimate the measurement uncertainty preliminarily. [ Result] Type A uncertainty （uA） ＇ type B uncertainty （uB） and combined standard uncertainty （Uc） were 0.0 004, 0.002 and 0.002, respectively. At a confidence level ofp = 95% and freedom degree of Voff = 3 251, coverage factor k = 1.96, expanded uncertainty U = 0.004. The final measurement result was C = 0.028 ± 0. 004, which was dose to the conventional true value （0.03）. Thus, the measurement uncertainty was relatively small, indicating a high quality of measurement. In this study, uncertainty evaluation indicated that the deviation of micro liquid transfer made the greatest contribution to the measurement uncertainty. [ Cludusion ] The deviation of micro liquid transfer should be reduced to im- prove the quality of measurement.

Sin-QuEChERS Nano净化柱结合气相色谱-串联质谱法快速筛查石斛中84种农药残留

利用Sin-QuEChERS Nano净化柱结合气相色谱-串联质谱(GC-MS/MS)分析,建立了石斛基质中84种不同极性农药残留的快速筛查方法。比较了采用不同的提取溶剂(1%乙酸乙腈、丙酮)和不同的提取方式(加水浸泡和不加水浸泡)下目标物的提取效率。利用金钗石斛样品系统比较了Sin-QuEChERS Nano法与经典的基质固相分散法(dSPE)、固相萃取法(SPE)、QuEChERS法的净化效果及提取回收率,以及净化效果较好的Sin-QuEChERS Nano法与dSPE法基质效应的差异。目标物经DB-1701MS石英毛细管色谱柱(30 m×0.25 mm×0.25μm)程序升温分离,GC-MS/MS多反应监测(MRM)模式检测,基质匹配溶液外标法定量。通过GC-MS/MS检测方法对金钗石斛和铁皮石斛中的84种代表性农药进行了方法学验证。结果表明:各目标物在不同范围内呈良好的线性相关,相关系数(r^(2))均>0.990,方法的检出限(LOD,S/N=3)为1.5~5.8μg/kg,方法的定量限(LOQ,S/N=10)为5.0~15.0μg/kg。在两个水平下,目标农药的加标回收率为68.7%~116.2%,相对标准偏差(RSD,n=6)均低于15%。与其他经典的前处理方法相比,Sin-QuEChERS Nano法在净化效果方面表现更好,该法不仅可以有效去除色素、有机酸、碱性干扰物等物质,还可以节省样品制备时间,避免溶剂转移造成的损失,无需进一步涡旋或离心,是一种简单而有效的提取物纯化程序。该方法灵敏、快速、简便、可靠,有效地提高了石斛中农药快速筛查时的检测效率,具有较强的实际应用价值。此外,所开发的方法可以进一步扩展目标农药的类型,并可以用于检测其他更多食品及中药材中的农药残留。

Simple-QuEChERS Nano结合GC-MS/MS同时检测全血中的97种农药

建立了Simple-QuEChERS Nano结合气相色谱-串联质谱(GC-MS/MS)同时检测血液中97种农药的方法,并对基质条件、提取溶剂以及净化材料进行了优化。0.5 mL血液样品经3倍水稀释混匀,使用2.0 mL乙酸乙酯提取后振荡、离心,过Simple-QuEChERS Nano净化柱及0.22μm有机微孔滤膜后,采用多反应监测模式(MRM)进行分析。结果显示,97种农药在一定质量浓度范围内线性关系良好(r2≥0.9873),除丙烯菊酯(检出限和定量下限分别为11.03、36.76 ng/mL)外,其余农药的检出限为0.06~4.27 ng/mL,定量下限为0.18~14.24 ng/mL。采用空白全血进行加标回收实验,97种农药在100、200、400 ng/mL 3个加标水平下的回收率为32.2%~120%,日内精密度为1.9%~11%,日间精密度为3.6%~13%。该方法由传统QuEChERS方法改进,绿色环保、操作简单、快速高效,可用于血液中多种农药的同时检测,用于实际案件血液样品中农药的筛查与定性定量检验,获得了良好的结果。

痕量Pb^(2+)在nano-TiO_2膜电极上的电化学行为及应用研究

利用纳米二氧化钛(nano-TiO2)的结构特性制备了一种nano-TiO2膜修饰的玻碳电极。采用阳极溶出伏安法详细研究了Pb2+在nano-TiO2膜修饰玻碳电极上的电化学响应行为,并对各种实验参数进行了优化。实验结果表明,在0.10 mol/L HAc-NaAc缓冲体系(pH 4.0)中,于-1.2 V富集搅拌480 s,再静置60 s后阳极化扫描,Pb2+在-0.48 V左右出现一灵敏的阳极溶出峰。Pb2+的溶出峰电流与其浓度在2.0×10-9~1.0×10-7mol/L范围内呈良好的线性关系,检出限可达1.0×10-10mol/L。该修饰电极具有一定的抗干扰能力,将其应用于实际水样中Pb2+的检测,结果令人满意。

L-半胱氨酸修饰Ag-nano-TiO2／CNT复合膜电极的制备及其对苯乙酮的电催化还原

在nano-TiO2/CNT电极表面镀一层银,制备了Ag-nano-TiO2/CNT电极。用L-半胱氨酸(L-Cys)修饰Ag-nano-TiO2/CNT制备了L-Cys-Ag-nano-TiO2/CNT电极。研究了Ag-nano-TiO2/CNT和L-Cys-Ag-nano-TiO2/CNT的电化学性质,结果表明,L-Cys-Ag-nano-TiO2/CNT对苯乙酮有较强的催化还原作用。

谷胱甘肽在nano-TiO_2-咖啡酸复合修饰碳糊电极上的电催化氧化及电分析方法

研究了还原型谷胱甘肽(GSH)在nano-TiO2-咖啡酸(CFA)复合修饰碳糊电极(nano-TiO2-CFA/CPE)上的电催化氧化行为,并进行了测定。结果表明,GSH在CPE和nano-TiO2/CPE上的直接电化学氧化过程十分迟缓,nano-TiO2-CFA/CPE比CFA/CPE对GSH的电化学氧化具有更好的催化作用。采用循环伏安法(CV)、计时电流法(CA)探讨了GSH在nano-TiO2-CFA/CPE上的电极过程动力学性质。用线性扫描伏安法(LSV)测得催化氧化峰电流与GSH的浓度在9.0×10-6～1.0×10-3 mol.L-1范围内呈良好线性,检出限为8.85×10-7 mol.L-1。将该方法用于市售还原型谷胱甘肽药物含量的测定,结果满意。

nano-TiO_2修饰金电极对NO_2的电化学检测

研制了一种纳米二氧化钛薄膜修饰的金电极(nano-TiO2/Au),用循环伏安法研究了亚硝酸根(NO2-)在该电极上的电化学行为,并对实验条件进行了优化.实验结果表明,该电极在酸性介质中(0.1mol/L H2SO4)对NO2-的氧化具有高度灵敏性和选择性,且大多数阳离子对NO2-的测定无干扰.NO2-的氧化峰电流与其浓度在2.0×10-8 ～4.0×10-4 mol/L范围内呈良好的线形关系,检测限可达2.0×10-9mol/L.

新型CNT／nano-TiO2复合膜电极的制备及其异相电催化性能

采用溶胶-凝胶法制备了碳纳米管/纳米TiO2(CNT/nano-TiO2)复合溶胶,通过提拉法将复合溶胶涂覆在Ti基体上制得CNT/nano-TiO2复合膜修饰电极(C电极),其电化学性能经循环伏安、计时库仑、交流阻抗谱(EIS)等方法研究。研究结果表明,CNT可阻碍nano-TiO2粒子团聚。在循环伏安图中,C电极的氧化还原峰电流比nano-TiO2膜修饰电极(P电极)的高出两倍多。通过对草酸溶液的异相电催化反应进一步证明C电极比P电极具有更高的电催化活性,而且对双氧水也有很强的异相电催化还原能力。

Nano-Fe_2O_3的制备及其改性聚合物研究进展

对纳米氧化铁的化学制备方法固相法、沉淀法、溶胶凝胶法、微波法、水热法、微乳液法和超声波法等作了详细介绍。综述了近年来国内外纳米氧化铁在改性塑料和涂料方面的研究进展,并对其未来的研究方向做出了展望。

基于纳米银/聚L-谷氨酸修饰玻碳电极的电化学传感器用于泡菜中亚硝酸钠含量的测定

采用电沉积和电聚合的方式,将纳米银和L-谷氨酸修饰在玻碳电极上,制得纳米银/聚L-谷氨酸修饰玻碳电极(Poly-L-Glu/Nano-Ag/GCE)。以0.2 mol·L^(-1)磷酸盐缓冲溶液(pH 7.0)为支持电解质,以Poly-L-Glu/Nano-Ag/GCE为工作电极,饱和甘汞电极为参比电极,铂电极为辅助电极,在最佳检测条件下,采用循环伏安法进行测定。结果表明:Poly-L-Glu/Nano-Ag/GCE对亚硝酸钠具有较好的选择性,亚硝酸钠的浓度在4.14×10^(-6)~1.35×10^(-3) mol·L^(-1)内与对应的氧化峰电流的绝对值呈线性关系,检出限(3s/k)为4.14×10^(-7) mol·L^(-1),并且该电极的制备方法具有较好的重复性。将PolyL-Glu/Nano-Ag/GCE用于泡菜样品中亚硝酸钠的测定,检出量为1.33×10^(-5) mol·L^(-1),加标回收率为98.9%~103%。

NANO碳净化-超高效液相色谱-串联质谱法测定东北黑土壤中多农残含量

本文使用NANO碳净化柱对土壤中的31种农药进行净化,并且通过超高效液相色谱-串联质谱法(UPLC-MS/MS)进行测定。土壤样品经过NANO碳净化柱,净化效果良好。31种农药的检出限为0.001~0.01mg/kg,定量限为0.003~0.033mg/kg,添加回收率在70%~120%之间,相对标准偏差(RSD)在0%~10%之间。结果表明,该方法简单、快捷、灵敏度高,线性范围、回收率和精密度均适合土壤中的31种农药残留检测,在土壤农药残留筛查中具有较好的应用前景。

硅藻土/nano-MoS2复合改性氟橡胶的摩擦磨损性能研究

采用红外光谱仪、无转子硫化仪、环-块摩擦试验机、电子和光学显微镜等测试分析手段,重点考察了改性硅藻土及其与纳米二硫化钼(nano-MoS2)复合对氟橡胶(FKM)复合材料摩擦磨损性能的影响。结果表明,随着改性硅藻土含量的增加,FKM硫化胶的摩擦系数和磨损体积均呈现出逐渐降低的趋势;当改性硅藻土含量达到45 phr时,硫化胶表现出较好的摩擦磨损性能。在此基础上,再添加1 phr的nano-MoS2时,硫化胶具有最低的摩擦系数和体积磨损量,分别为0.4和1.42 mm^3,降低了16.7%和63.6%。SEM分析表明,改性硅藻土的加入有效抑制了氟橡胶的黏着磨损,适量硅藻土和nano-MoS2复合改性氟橡胶表现出轻微的磨粒磨损特征,磨损表面光滑平整,转移膜完整均匀。

中空容器专用HDPE(HD5502GA)/nano-MMT复合材料力学性能分析

以HDPE(HD5502GA)和纳米蒙脱土为实验原料,分别配制纳米蒙脱土和改性纳米蒙脱土质量分数为1%、3%、5%、7%、9%的HDPE/nano-MMT混合料,再经双螺杆挤出机造粒后得到HDPE/nano-MMT复合材料。分别以纯HDPE和不同组分的HDPE/nano-MMT以及HDPE与改性纳米蒙脱复合材料为实验材料,经小型平板硫化机压片后,用仿形制样机和全自动缺口仪制备出抗缺口冲击样条,用仿形制样机制备出1A型试样样条,并对样条进行力学性能测试。实验结果表明,随着纳米蒙脱土含量的增加,复合材料的拉伸强度和抗缺口冲击强度都呈现出逐渐减小的趋势。随着改性纳米蒙脱土含量的增加,样条的拉伸强度呈现出先减小后增大再减小的趋势,当改性蒙脱土含量为1%时,复合材料的拉伸强度最大,为29.864 MPa;随着改性纳米蒙脱土含量的增加,样条的抗缺口冲击强度呈现出先增大后减小的趋势,当改性纳米蒙脱土的含量为3%时,复合材料的冲击强度最大,为11.932 kJ/m^2。