溶剂化金属原子浸渍法制备聚合物固载Co—Ag催化剂：Ⅲ.聚合？…

应用溶剂化金属原子浸渍法制血了四中不同比表面积树脂固载的Ｃｏ－Ａｇ双金属催化剂。射线衍射（ＸＲＤ）和磁测定结果表明，随着树脂比表面积的增大，具有相同金属含量的催化剂Ｃｏ和Ａｇ的颗粒减小，分散度增大，因而催化剂在二丙酮醇加氢以及燃料电池电极上氧还原的催化活性增大。     

金属蒸气法制备聚合物固载双金属催化剂 Ⅱ.聚合物比表面对Pd-Cu催化剂分散度和活性的影响

利用金属蒸气法制备了四种比表面不同的树脂固载Ｐｄ Ｃｕ双金属催化剂．Ｘ 射线衍射和透射电镜结果表明，随着树脂比表面积增大，固载量相同的Ｐｄ Ｃｕ催化剂，Ｐｄ Ｃｕ合金的颗粒减小，因而在甲苯，４ 甲基 ４ 羟基 ２ 戊酮加氢和电催化反应中活性增大．     

金属蒸气法制备聚合物固载双金属催化剂：II.聚合物比表面对Pd—Cu催化 …

利用金属蒸气法制备了四种比表面不同的树脂固载Ｐｄ－Ｃｕ双金属催化剂，Ｘ－射线衍射和透射电镜结果表明，随着树脂比表面积增大，固载量相同的Ｐｄ－Ｃｕ催化剂，Ｐｄ－Ｃｕ合金的颗粒减小，因而在甲苯，４－甲苯－４－羟基－２－戊酮加氢和电催化反应中活性增大。     

聚合物固载Ni-Ag双金属催化剂Ⅲ.聚合物比表面积对催化剂分散度和活性的影响

聚合物固载ＮｉＡｇ双金属催化剂Ⅲ．聚合物比表面积对催化剂分散度和活性的影响吴世华朱常英黄唯平沈虎峻沈欣李连荣（南开大学化学系，天津３０００７１）关键词镍，银，双金属催化剂，树脂，比表面积，固载型催化剂，加氢，燃料电池电极溶剂化金属原子浸渍（ＳＭＡ...     

聚合物固载Co-Pd 催化剂的结构与活性

采用溶剂化金属原子浸渍(SMAI)法制备了几种不同金属含量的Co Pd催化剂,用X射线衍射、X射线光电子能谱和磁测定对催化剂进行表征,并与普通浸渍法(CI)制得的相同金属含量的催化剂进行比较.结果表明SMAI法制备的催化剂金属粒度小于CI法制备的催化剂,且前者零价金属含量高于后者.SMAI法制备的催化剂Co在表面上富集,而CI法制备的催化剂Co在表面和体相的金属含量基本相同.在二丙酮醇加氢及电催化反应中, SMAI法催化剂比相同组成的CI法催化剂具有更高的催化活性.     

溶剂化金属原子浸渍法制备聚合物固载Co-Ag催化剂Ⅱ.催化性质研究

用溶剂化金属原子浸渍技术制备了高分散树脂固载Co -Ag双金属催化剂。研究了这些催化剂在二丙酮醇加氢和用作燃料电池电极时的催化性质。与普通浸渍法制备的相同组成的催化剂相比 ,溶剂化金属原子浸渍催化剂显示出更高的活性。这是因为溶剂化金属原子浸渍催化剂具有更高的分散性和金属的还原度 (零价金属百分比 )。研究结果还表明随着金属含量的增加催化活性增大 ,在电催化反应中钴的加入增大了银的催化活性。     

聚合物固载Ni－Ag双金属催化剂Ⅱ．催化剂的催化性质

聚合物固载Ｎｉ┐Ａｇ双金属催化剂Ⅱ．催化剂的催化性质吴世华朱常英王连邦张松桢（南开大学化学系，天津３０００７１）关键词镍，银，聚合物固载金属催化剂，加氢，燃料电池电极溶剂化金属原子浸渍（ＳＭＡＩ）技术是制备聚合物负载零价金属催化剂的一个非常有用的方法...     

Analysis of thermolabile residual solvents in a spray dried dispersion using static headspace gas chromatography

In this study, we discuss the development of a static headspace gas chromatography method for the analysis of residual acetone as well as its enriched impurities including mesityl oxide and diacetone alcohol, in a spray dried dispersion. The major challenges include the instability of mesityl oxide and diacetone alcohol at high temperature and peak tailing of diacetone alcohol. It was found that the headspace oven temperature has to be controlled to 150°C or below to prevent degradation beyond an acceptable level (< 1%). The peak tailing of diacetone alcohol was attributed to the “Phase Soaking” effect due to excessive diluent, which may condense and temporarily modify the stationary phase. The peak shape of diacetone alcohol is dependent on the column loading capacity and the peak area of N‐methyl pyrrolidone, the solvent that elutes after diacetone alcohol. The headspace oven temperature was set at 140°C, where the highest response ratio of diacetone alcohol/N‐methyl pyrrolidone at 1.46 and thus the best sensitivity was obtained. The calculated quantitation limits were 1 ppm for acetone, 3 ppm for mesityl oxide and 31 ppm for diacetone alcohol. The method successfully passed validation criteria for specificity, linearity, accuracy, and precision.     

Nanoscale lanthanum oxide catalysts for self-condensation of acetone: preparation via self-assembly on anodic aluminum oxide,structure, and properties

A novel structured La₂O₃/AAO solid base catalyst was prepared by supporting lanthanum oxide (La₂O₃) on the surface of anodic aluminum oxide (AAO) under hydrothermal conditions. Catalytic activity of the catalyst was tested using self-condensation of acetone to diacetone alcohol as a probe reaction. The conversion of acetone reached 4.14% with the diacetone alcohol selectivity of 98%. The catalysts were characterized by X-ray diffraction (XRD), scanning electron microscopy (SEM), energy disperse spectroscopy (EDS), thermogravimetric analysis (TGA), N₂ adsorption-desorption (BET), and temperature programmed desorption (CO₂-TPD). XRD patterns and SEM images indicated that La₂O₃ nanoscale particles with high crystallinity were uniformly distributed over the AAO surface. The results of CO₂-TPD showed that the calcination temperature led to the formation of medium-strength basic sites, strong basic sites, and to an increase of the basic strength. The strong basic sites and large basic strength are an important factor that influences the catalytic activity in the self-condensation of acetone to diacetone alcohol.     

Oxidation of Benzyl Alcohol Using Cobalt Oxide Supported Inside and Outside Hollow Carbon Spheres

Cobalt oxide nanoparticles (6 nm) supported both inside and outside of hollow carbon spheres (HCSs) were synthesized by using two different polymer templates. The oxidation of benzyl alcohol was used as a model reaction to evaluate the catalysts. PXRD studies indicated that the Co oxidation state varied for the different catalysts due to reduction of the Co by the carbon, and a metal oxidation step prior to the benzyl alcohol oxidation enhanced the catalytic activity. The metal loading influenced the catalytic efficiency, and the activity decreased with increasing metal loading, possibly due to pore filling effects. The catalysts showed similar activity and selectivity (to benzaldehyde) whether placed inside or outside the HCS (63 % selectivity at 50 % conversion). No poisoning was observed due to product build up in the HCS.     

Hydrogenation of cinnamaldehyde over platinum catalysts: influence of addition of metal chlorides

The effect of addition of metal chlorides to platinum-supported catalysts has been studied in the hydrogenation of cinnamaldehyde in the liquid phase. FeCl₃, SnCl₄ and GeCl₄ were found to be the most effective promoters for the selective synthesis of cinnamyl alcohol. The rate of reaction increased by addition of small amounts of metal chlorides and then decreased at higher contents. Selectivity to cinnamyl alcohol was slightly dependent on the concentration of the additives and on the level of conversion.A reaction mechanism for the hydrogenation of cinnamaldehyde over promoted platinum is suggested.     

在阴离子交换树脂催化剂上合成二丙酮醇的动力学研究

动力学研究表明,在碱性树脂催化剂上丙酮缩合制二丙酮醇是一个1-1级可逆反应,本文对此多相催化的反应机理进行了探讨。     

钯-高分子载体催化剂对糠醛加氢液相反应的研究

以弱碱性苯乙烯系阴离子交换树脂[D392,-NH₂,D382,-NHCH₃,D301R,-NH(CH₃)₂],强碱性苯乙烯系阴离子交换树脂[201×7DVB,-NH⁺(CH₃)₃]和弱碱性环氧系阴离子交换树脂(701,-NH₂)为载体制备了3种钯-高分子载体催化剂.考察了反应条件、高分子载体的种类、钯含量和催化剂用量对糠醛催化加氢生成四氢糠醇反应及催化性能的影响.在体积分数为50%的乙醇-水溶液和水中对糠醛常压液相加氢反应,钯-高分子载体(阴离子交换树脂D392,-NH₂,D382,-NHCH₃)催化剂均可使糠醛的加氢反应转化率达100%,生成四氢糠醇的选择性达98%以上,而用金属钯为催化剂的转化率达70%以上,选择性达97%以上.同时用XPS分析了高分子载体催化剂的结构与催化加氢反应性能的关系.     

无额外供氢体下负载型MoFeO_x催化剂催化甘油制丙烯醇

采用浸渍法制备MoFe/X(X=SnO_2,ZrO_2,CeO_2,TiO_2,CNTs,MgO)以及MoFe氧化物催化剂用于甘油气-固相催化转化制丙烯醇。通过XRD、BET、XPS、H_2-TPR和NH_3-TPD表征,MoFe主要由晶相Fe_2O_3和Fe_2(MoO_4)_3组成而MoFe/X主要为高分散态的Fe、Mo氧化物(Fe~(3+)、Mo~(6+)),其表面均只存在弱酸中心;所采用载体由于自身性质(比表面积和酸碱性)差异与Mo、Fe氧化物之间存在不同的相互作用,进而有效地调控了MoFe/X的表面弱酸强度、酸浓度和可还原性能。所制备催化剂对甘油制丙烯醇的催化性能(收率)依次为:MoFe/TiO_2MoFe/CeO_2MoFe/ZrO_2MoFe/CNTsMoFe/SnO_2MoFeMoFe/MgO。340°C时,MoFe/TiO_2上甘油的转化率达到83.4%,丙烯醇的选择性和收率分别达到26.7%和22.3%;同时其展现出优于MoFe/CeO_2、MoFe/ZrO_2和MoFe/CNTs的稳定性。甘油转化率与催化剂表面弱酸中心浓度呈正相关性,而丙烯醇的生成则与氧化中心(非酸中心)密切相关。甘油转化率和丙烯醇选择性在MoFe/X上随反应温度变化而呈现相悖的变化趋势。     

Bimetallic Co–Ni/TiO<Subscript>2</Subscript> catalysts for selective hydrogenation of cinnamaldehyde

Bimetallic Co–Ni catalysts in the composition range Co_(1?x)Ni_x with x?=?0.0, 0.2, 0.3, 0.4, 0.5, 0.6, 0.8 and 1.0, with total metal loading of 15% w/w and supported on TiO₂-P25, have been prepared by chemical reduction of the metal acetates by glucose in aqueous alkaline medium and characterized by XRD, TEM, TPR, XPS and H₂-TPD techniques. Selective hydrogenation of cinnamaldhyde (CAL) to hydrocinnamaldehyde (HCAL), cinnamyl alcohol (COL) and hydrocinnamyl alcohol (HCOL) has been investigated at 20 bar pressure, in the temperature range 120–140 °C. Co/Ni crystallite sizes in the range 6.0?±?1 nm are observed by TEM. TPR and XPS results indicate the formation of nanoscale Co–Ni alloys, which tend to weaken M–H bond strength, as revealed by H₂-TPD measurements. Ni/TiO₂ displays very high conversion of CAL (86.9%) with high selectivity (78.7%) towards HCAL formation at 140 °C. Co/TiO₂, on the other hand, exhibits relatively lower CAL conversion (55%) and higher selectivity (61.3%) for COL formation at the same temperature. However, bi-metallic Co–Ni catalysts in the composition range x?=?0.3–0.6 display very high conversion (>?98%) due to alloy formation and weakening of M–H bonds. Bimetallic Co_0.7Ni_0.3 catalyst displays high conversion of CAL (98.1%) and high selectivity (82.9%) towards HCOL. Overall CAL hydrogenation activity at 140 °C, when expressed as TOF, displays a maximum value at the composition Co_0.5Ni_0.5. Activity and selectivity patterns have been rationalized based on the reaction pathways observed on the catalysts and the influence of Co–Ni alloy formation and M–H bond strength. Thus, a synergetic effect, originating from an appropriate composition of base metal catalysts and reaction conditions, could result in hydrogenation activity comparable with noble metal based catalysts.     

碱处理对β分子筛催化苯与苯甲醇液相傅-克烷基化反应性能的影响

采用Na OH水溶液对β分子筛进行碱处理,利用XRD、N_2-Physisorption、XRF、NH_3-TPD及SEM等表征手段,使用苯与苯甲醇为反应物进行傅-克烷基化反应,对碱处理前后β分子筛的物性和反应性能进行了研究.实验结果表明:随着碱处理程度的加深,β分子筛的孔径增大,催化剂外比表面积显著增加,β分子筛的弱酸强度和弱酸总量有所下降,由此带来的反应结果是苯甲醇的转化率显著提高.对于孔径最大的催化剂,在常压下80℃时进行反应,当反应时间为140 min时,苯甲醇的转化率已达到100%,选择性有所提高.     

制备条件对新型糠醛加氢催化剂性能的影响

采用共沉淀法制备CuO-ZnO-Al2O3-MnO2复合氧化物为活性组分体系的新型铜基催化剂,并评价其在糠醛选择性加氢制备糠醇过程中的活性,比较Na2CO3、NH4HCO3、H2C2O4三种沉淀剂制得催化剂的活性差异并通过TPR、XRD、ICP、BET等手段表征,结果表明:用Na2CO3作沉淀剂制得催化剂转化率最高.进一步对制备条件进行考察,发现采用Al(OH)3的添加形式和并流共沉淀法有利于提高催化剂的活性,而助剂Mg的添加能有效提高催化剂稳定性.     

Nickel- and cobalt-based heterogeneous catalytic systems for selective primary amination of alcohol with ammonia

It is one of the critical fields of green chemistry to catalyze the selective conversion of biomass-derived alcohol and ammonia to primary amines with extensive application. Recently, catalytic systems consisting of non-noble metal nickel- and cobalt-based catalysts have been developed for catalytic alcohol amination. This paper reviewed these two types of catalytic systems, which are classified as skeleton Co and Ni catalytic systems, supported and modified Co and Ni catalytic systems, emphasized on catalysts and catalysis, and clearly explained where zero-valent cobalt or nickel is active species for catalytic reaction. In supported catalysts, the catalytic active sites constituted by the catalytic active species and its micro-environment can regulate the efficiency of catalytic the reaction. While in modified catalysts, modifiers such as metal Fe, Re and Bi may modulate the catalytic active sites and change the catalytic selectivity. There are differences in structure and size between catalysts prepared by different methods, resulting in distinct interface and electronic properties for alcohol amination, which determines the structure–activity relationships of the catalytic system.     

Cu-BTC及其衍生物在苯甲醇选择氧化反应中的催化活性

以硝酸铜和均苯三甲酸(BTC)为原料,水热合成了一种金属有机骨架化合物Cu-BTC,在水相中催化苯甲醇选择氧化反应,H2O2氧化剂,优化了Cu-BTC的晶化条件.70℃反应1 h,Cu-BTC(110C/24 h)上的苯甲醇转化率为75.4%、苯甲醛选择性83.5%,但反应后Cu-BTC骨架完全塌陷.在氮气中高温焙烧Cu-BTC,制得衍生物Cu@C,也用于催化苯甲醇氧化反应.结果表明:Cu@C催化剂重复使用5次,可维持较高的苯甲醇转化率,但苯甲醛选择性有所下降.用X射线衍射(XRD)、N2物理吸附(BET)、热分析(TG-DSC)、红外光谱(FTIR)、能量色散X射线光谱分析(EDX)等技术对催化剂进行了结构表征,发现:Cu@C在反应中生成的Cu2O促进了苯甲醛的深度氧化.     

Synthesis and conversion of alcohols over modified transition metal sulphides

Alkali modified (Co/Ni)MoS systems are promising catalysts for higher alcohol synthesis from synthesis gas. The influence of various supports, modifiers and promoters on the activity of sulphide catalysts is reviewed. It is found that alkali metal reduces support acidity and affects the active phase morphology and active site functioning. Promotion of the catalyst with Co and Ni favours alcohol formation. KCoMoS catalyst activity in syngas conversion and hydrodesulphurization reactions is studied. An effect of organic compound additives such as methanol, ethanol, and ethylene on the catalyst behaviour is studied. It is suggested that alcohol formation may proceed in two steps: CO insertion and aldol condensation. Which of the two dominates depends on the reaction conditions.