Study of zinc thiocarbamide chloride,a single-source precursor for zinc sulfide thin films by spray pyrolysis

Thermal decomposition of the title compound, Zn(tu)₂Cl₂ (tu=thiourea), was studied up to 1200°C in dynamic inert (N₂) and oxidative (air) atmospheres using simultaneous TG/DTA techniques. In addition, XRD and IR were employed ex situ to resolve the reaction mechanism and products. Cubic ZnS (sphalerite) is formed below 300°C in both atmospheres and is observed until 760°C, whereafter it transforms in nitrogen to the hexagonal ZnS (wurtzite). EGA by FTIR revealed the complexity of the decomposition reactions involving also the evolution of H₂NCN, which reacts to form hexagonal ZnCN₂ as revealed by an XRD analysis. This revised version was published online in July 2006 with corrections to the Cover Date.     

Catalytic activity of silica in ozone formation in electrical discharges

The catalytic action of granular silica packing on ozone formation has been observed under discharge conditions. Using a glass ozonizer with a metal high-voltage electrode, at a frequency of 400 Hz it was possible to obtain much higher ozone concentrations in the presence q( silica than without packing, with the same total energy consumption. The dependence between ozone production and energy efficiency is considered, and conditions of the optimum ozonizer run are discussed. It is shown that in the all-glass ozonizer with a narrow discharge gap, the ozone concentration may be as high as 6.5% (ca. 130g O₃/m³) when silica packing is applied.     

中孔分子筛SO42-/Zr-MCM-41催化裂解聚丙烯反应研究

采用水热合成法制备了不同硅锆比的中孔分子筛Zr-MCM-41,用强酸性基团SO42-对其进行修饰,制得SO42-/Zr-MCM-41中孔分子筛.采用XRD、FT-IR、NH3-TPD及氮气吸附脱附等技术对其结构和酸强度进行表征.通过改变硅锆比、负载不同的酸性基团对Zr-MCM-41的酸性进行调变,并将其用于催化聚丙烯(PP)的裂解反应,结果表明S i/Zr=40的SO42-/Zr-MCM-41具有较好的催化裂解活性.另外,与热裂解以及HZSM-5和Zr-MCM-41为催化剂时PP的裂解反应结果进行了比较,结果证明SO42-/Zr-MCM-41不仅具有较高的裂解转化率,而且具有较高的液体产物收率,适宜于空间位阻较大的PP的催化裂解反应.     

Catalytic carbonylation of potassiumN,2-dichlorobenzenesulfonamidate to sulfonyl isocyanate

Application of acetonitrile as a solvent in the catalytic carbonylation of potassiumN,2-dichlorobenzenesulfonamidate allowed to reduce the catalyst/substrate ratio and the CO pressure as compared to those used with chlorinated hydrocarbons.     

以水滑石及类水滑石为前体的Mg/Al、Co/Al及Co/Mg/Al混合氧化物的合成、表征和异丙醇催化性能

以共沉淀法合成的水滑石(HT)和类水滑石(HTLc)为前体制备了镁铝、钴铝、钴镁铝混合氧化物，采用了BET、XRD、TG-DTA、TPR、FTIR和微量量热吸附及异丙醇催化反应进行了研究。结果表明：以HT和HTLc为前体制备的混合氧化物，其比表面积较大、并随着钴含量的增加而降低。在HT中引入Co²⁺离子后，由于Co²⁺离子的氧化还原属性，削弱了水滑石层对阴离子的键合能力，从而使其热分解温度及热稳定性降低，导至焙烧后生成的混合氧化物的比表面积比不含钴的2Mg/Al混合氧化物的低。在TPR过程中，镁铝混合氧化物不被还原，而含钴的混合氧化物的还原是经由Co³⁺ → Co²⁺ → Co⁰的过程。混合氧化物表面含有酸性位和碱性位，并随着钴含量的变化而得到调变。含钴氧化物样品的表面以L酸为主和含有很少量的B酸。异丙醇催化反应生成丙酮的选择性最高，表明样品表面的氧化还原位是主要的，随着钴的加入及含量的增大，异丙醇催化反应的转化率也是增大的。     

Photocatalysis of sprayed nitrogen-containing Fe2O3–ZnO and WO3–ZnO composite powders in gas-phase acetaldehyde decomposition

Two series of nano-sized N-containing MO_x–ZnO (M: Fe, W) composite powders were synthesized by spray pyrolysis. The nitrogen content was controlled from 500 to 2100 ppm by changing the powder ingredients and spray pyrolysis temperature. Ultraviolet-visible (UV-Vis) spectra indicated that the N-containing MO_x–ZnO powders absorbed not only ultraviolet light (λ<387 nm) like pure ZnO powder, but also part of visible light (λ<650 nm). Acetaldehyde decomposition was used as a probe reaction to evaluate the photocatalysis of these composite powders. The photocatalytic activity of the N-containing ZnO powder was pronouncedly enhanced by the WO₃ addition under both UV and visible-light irradiation. However, that of the N-containing ZnO powder was suppressed by the Fe₂O₃ addition. A model of the semiconductor energy-band structure is proposed to explain the enhancement and suppression of photocatalytic activity.     

VCe0.95M0.05 (M=Cu, Co, Mn, Fe或Cr) 复合氧化物的结构和氧化还原性能

采用溶胶 凝胶法制备VCe和VCe0.95M0.05(M=Cu,Co,Mn,Fe或Cr)复合氧化物。用XRD,拉曼光谱,XPS和TPR技术对结构和氧化还原性能进行表征。所有样品的主要物相是四方相的VCeO4。当Fe,Mn,Cu或Co取代部分Ce导致形成少量CeO2或单斜相的VCeO4。XPS结果表明VCe0.95Co0.05,VCe0.95Mn0.05,VCe0.95Cr0.05和VCe0.95Fe0.05复合氧化物中V的价态是+5+δ(δ<1)高于VCe,而VCe0.95Cu0.05相反,V的价态是+5-δ低于VCe。Fe,Co,Cr或Mn能促进VCeO4中V5+的还原,而Cu抑制VCeO4中V5+的还原。     

Fe、Mn掺杂六铝酸镧的微乳液制法及性能研究

以TX-100/正己醇/环己烷组成的反相微乳液为媒介，采用反相微乳 共沉淀法制备系列金属掺杂的六铝酸镧催化剂。用BET、XRD进行物性表征, 以甲烷燃烧为探针反应考察了催化剂的催化活性。结果表明，反相微乳液合成催化剂的最佳成晶温度可降至1100℃。 LaMx Al12－x O19－α 中M的最佳掺杂数为1(x1)。单金属Mn的存在可以降低甲烷的起燃温度，使催化剂具有良好的低温活性；单金属Fe掺杂的六铝酸镧催化剂具有较低的完全转化温度；而Fe、Mn共同掺杂的LaMnFeAl-10O19－α催化剂具有低、高温活性和高温稳定性。100h稳定性运转的转化率始终保持在99.7％，无失活现象。     

催化动力学光度法测定微量碘的研究

基于微量碘离子对高碘酸钠氧化甲基紫反应的催化作用，建立了测定微量碘的动力学光度法。方法检出限０．２２μｇ／ｍＬ，线性范围０．３０～１．４０μｇｍＬ，包括其它卤素在内的大多数阴离子、阳离子不干扰测定，用于食盐中微量碘的测定，有满意的结果。     

Ce1-XMnXO2-a复合氧化物催化剂甲烷催化燃烧性能的研究

采用水热法合成了系列Ce_1-XMn_XO_2-a-T(X=0.0，0.1，0.2，0.3，0.5，0.7，0.9，1.0；T表示焙烧温度)，T=500，650，800 ℃)复合氧化物催化剂用于甲烷的催化燃烧。通过XRD、N₂吸/脱附、TG-DSC、UV-Vis-DRS和TPR表征手段研究了不同组成催化剂的物理化学性质及其对甲烷催化燃烧活性。结果表明，在500 ℃焙烧的情况下Mn进入CeO₂晶格形成均相固溶体催化剂的最大取代值为0.7，而当Mn继续增加时则出现Mn₂O₃晶相偏析，同时各催化剂具有较高的比表面积；随着焙烧温度的升高，进入CeO₂晶格的Mn最大取代值逐渐减少，650和800 ℃时分别为0.5和0.3，且比表面积相应降低。Ce_1-XMn_XO_2-a-800催化剂的还原行为大致呈现三阶段，即为Mn₂O₃ → Mn₃O₄的还原(340～420 ℃)，Mn₃O₄ → MnO的还原(420～480 ℃)和体相氧化铈的还原(700～900 ℃)，且Mn的引入整体上提高了催化剂的可还原能力。甲烷催化燃烧活性评价结果表明，比表面积并非影响催化剂活性的主要因素，影响催化剂甲烷催化活性的主要因素为催化剂的组成、可还原能力和焙烧温度；而其中以Ce_0.3Mn_0.7O_2-a-800催化剂表现出较高的甲烷催化燃烧活性，在甲烷转化率为10%和90%时的温度分别为430 和613 ℃。进一步考察Ce_0.3Mn_0.7O_2-a在不同温度(500、650、800和1 000 ℃)焙烧后的催化活性表明，随着焙烧温度的提高催化剂催化活性降低。