Ag—AgI指示电极电位滴定法测定钯

研究了铂、钯、金、铂镀金、石墨及Ag—AgI指示电极,提出了一个用Ag～AgI指示电极(vs.SCE),碘化钾电位滴定钯的方法。该方法可应用于钯合金、氯化钯、钯催化剂中钯的测定。对于含钯60％和O.5％的物料,变异系数分别为0.5％和4％。     

黄原酸钾含量的示波滴定

报道了用示波滴定法测定黄原酸钾含量 ,在 p H5～ 6的 HAc- Na Ac缓冲底液中 ,加入四苯硼钠 ( Na- TPB)沉淀 K+ ,过量的 Na- TPB用氯化四乙基铵标准溶液滴定 ,滴至 Na- TPB示波图切口消失为终点 ,终点直观敏锐 ,方法快速简便 ,准确度、精密度均高。标准加入回收率在 99.8%～1 0 0 .2 % ,RSD<0 .2 %     

甲醛法测定铵盐含氮量

对甲醛法测定铵盐含氮量进行了研究，提出采用百里酚酞和酚酞混和指示剂进行测定。该法简单、快速、准确，能满足生产实际和样品检验需要。     

Electroplating synthesis and electrochemical properties of macroporous Sn-Cu alloy electrode for lithium-ion batteries

Macroporous material of Sn-Cu alloy of different pore sizes designated as anode in lithium-ion batteries were fabricated through colloidal crystal template method. The structure and electrochemical properties of the macroporous Sn-Cu alloy electrodes were examined by using scanning electron microscopy (SEM), energy dispersive X-ray spectroscopy (EDS), X-ray diffraction (XRD), X-ray photoelectron spectroscopy (XPS), and galvanostatic cycling. The results demonstrated that the electrodes of macroporous Sn-Cu alloy with pore size respectively of 180 and 500 nm can deliver reversible capacity of 350 and 270 mAh g⁻¹ up to 70th cycles of charge/discharge. The cycle performance of the macroporous Sn-Cu alloy of 180 nm in pore size is better than that of the macroporous Sn-Cu alloy with 500-nm-diameter pores. It has revealed that the porous structure of the macroporous Sn-Cu alloy material is of importance to strengthen mechanically the electrode and to reduce significantly the effect of volume expansion during cycling.     

滴定分析法测定铜的改进

提出在ＮＨ４ＨＦ２介质中，有ＳＣＮˉ存在下，以Ｉˉ３—淀粉为指示剂，硫代硫酸钠滴定铜的分析方法     

Stabilization of PCC dispersions prepared directly in the mother-liquid after synthesis through the carbonation of (hydrated) lime

Various CaCO₃-based products are often used in the form of concentrated aqueous dispersions. This study investigates the stabilization of PCC dispersions prepared directly in the mother-liquid after the carbonation of (hydrated) lime through the adsorption of a commercial sodium polyacrylate dispersant. The results demonstrate that the composition of the mother-liquid, particularly the Ca²⁺ activity, profoundly influences virtually all processes pertinent to dispersion stabilization—from the initial charging of the CaCO₃ surface in base PCC dispersions, to the surface charge regulation and dispersion stabilization efficiency of the polyacrylate dispersing agent. Rising prominence of the counterion condensation effects in Ca²⁺ rich solutions limits the conditions conducive to the surface charge regulation through dispersant adsorption to an optimum pH range of about 8-11. Furthermore, dispersion stability analysis, based on the classical DLVO theory of colloid stability, and corroborated by experimental evidence in the form of particle size distribution analyses, also indicates that optimum stability conditions for such PCC dispersions are established with small dispersant doses (0.25-0.5% per dry weight) in the pH range of about 9-11.     

海明滴定法快速测定废水中的LAS含量

介绍了一种测定废水中LAS浓度的新方法。克服了常规方法亚甲基蓝比色法要绘制标准曲线，操作过程复杂等局限性。该方法测定过程简单，结果准确，标准偏差为1．4l，变异系数为3．92％。     

陶瓷原料中SiO_2的钼酸银沉淀法测定

通过实验,发现络合滴定用的指示剂——偶氮胂—Ⅲ,可用作本测定中的沉淀滴定指示剂。根据标准 AgNO_3溶液同 MoO_4~(2-)的定量反应,计算出以硅钼黄 Hg[Si(Mo_2O_7)_6]形式存在的MoO_4~(2-)量,再据以算出硅酸盐中 SiO_2的含量。     

改进的卡尔费休法滴定装置对葡萄糖酸镁水含量的测定

用带橡皮塞的导管将滴定管的上口与锥形瓶连接构成一个密闭的滴定装置，将此装置应用于卡尔费休法容量法测定水含量，在滴定过程中所有试剂与外界完全隔开，防止了空气中的水蒸气干扰，滴定终点明显。且能长时间稳定（8h以上）。该装置结构简单，操作方便。利用此方法成功测定了葡萄糖酸镁中的水含量，其平均回收率为102．0％。     

Immobilization of biologically active species on PA‐6 foils treated by a dielectric barrier discharge

In the field of biomaterials and biomedical devices, surface activation has been focused on creating functional groups capable of preferential adsorption of biologically active species (proteins, enzymes, cells, drugs, etc.). In this way an interface can be created between the synthetic material and the biological medium, with the aim of increasing the compatibility of the implant with the human organism. In our experiments a dielectric barrier discharge (DBD), in helium at atmospheric pressure, was used as the source of energy capable of creating active centers that render the functionalized surface favorable to immobilization of biological molecules. Retention of immunoglobulin (IgG) and heparin biomolecules on polyamide‐6 (PA‐6) surfaces after treatment by the DBD was analyzed by atomic force microscopy, adhesion evaluation, and measurement of the contact angle titration in order to assess this incorporation on the treated surfaces. The marked adsorption of the biomolecules on the active sites created by DBD on the exposed surfaces also was related to a complex set of processes, such as enhanced roughness, increased surface wettability, and modified distribution of cationic and anionic groups on the treated surfaces. All these factors could promote interfacial interactions between the specific groups of the biomolecules existing in the biological medium and the type of cationic and/or anionic groups present on the surface. The efficiency of the DBD treatment showed that the DBD technique is useful for preactivation of the polymer surface for immobilization of other biologically active species (such as drugs and enzymes). © 2003 Wiley Periodicals, Inc. J Appl Polym Sci 90: 1985–1990, 2003