Gas Phase Selective Catalytic Oxidation of Toluene to Benzaldehyde on V2O5-Ag2O／η-Al2O3 Catalyst

Gas phase selective catalytic oxidation of toluene to benzaldehyde was studied on V2O5-Ag2O/η-Al2O3 catalyst prepared by impregnation. The catalyst was characterized by XRD, XPS, TEM,and FT-IR. The catalytic results showed that toluene conversion and selectivity for benzaldehyde on catalyst sample No.4 (V/(V Ag)=0.68) was higher than other catalysts with different V/Ag ratios. This was attributed to the higher surface area, larger pore volume and pore diameter of the catalyst sample No.4 than the other catalysts. The XRD patterns recorded from the catalyst before and after the oxidation reaction revealed that the new phases were developed, and this suggested that silver had entered the vanadium lattice. XPS results showed that the vanadium on the surface of No.4 and No.5 sample was more than that in the bulk, thus forming a vanadium rich layer on the surface. It was noted that when the catalyst was doped by potassium promoter, the toluene conversion and selectivity for benzalde hydewere higher than those on the undoped catalyst. This was attributed to the disordered structure of V2O5 lattice of the K-doped catalyst and a better interfacial contact between the particles.     

对叔丁基甲苯选择性氧化制对叔丁基苯甲醛催化剂研究--助剂T1的添加对催化剂结构及反应性能的影响

对叔丁基苯甲醛是香精香料及其它食用化工行业的重要原料 ,采用对叔丁基甲苯气相选择性氧化制对叔丁基苯甲醛可以克服对叔丁基苯甲醛生产过程中设备腐蚀严重、污染环境、工艺落后繁琐等缺点 ,所以一直是广大科技工作者十分关注的研究课题。迄今为止 ,国内外学者已有不少关于甲苯气相选择性氧化制苯甲醛的报道[1～ 3] ,但关于对叔丁基甲苯选择性氧化制对叔丁基苯甲醛的研究几乎未见报道。本文考察了在Ｖ -Ｃｓ -Ｃｕ体系催化剂上引入助剂Ｔ1后对催化剂反应性能的影响 ,结果发现助剂Ｔ1的添加对于提高对叔丁基苯甲醛的选择性具有明显的促进作…     

Gas Phase Selective Catalytic Oxidation of Toluene to Benzaldehyde on V2O5-Ag2O/η-Al2O3 Catalyst

Gas phase selective catalytic oxidation of toluene to benzaldehyde was studied on V2O5-Ag2O/η-Al2O3 catalyst prepared by impregnation. The catalyst was characterized by XRD, XPS, TEM,and FT-IR. The catalytic results showed that toluene conversion and selectivity for benzaldehyde on catalyst sample No.4 (V/(V Ag)=0.68) was higher than other catalysts with different V/Ag ratios. This was attributed to the higher surface area, larger pore volume and pore diameter of the catalyst sample No.4 than the other catalysts. The XRD patterns recorded from the catalyst before and after the oxidation reaction revealed that the new phases were developed, and this suggested that silver had entered the vanadium lattice. XPS results showed that the vanadium on the surface of No.4 and No.5 sample was more than that in the bulk, thus forming a vanadium rich layer on the surface. It was noted that when the catalyst was doped by potassium promoter, the toluene conversion and selectivity for benzaldehyde were higher than those on the undoped catalyst. This was attributed to the disordered structure of V2O5 lattice of the K-doped catalyst and a better interfacial contact between the particles.     

十六烷基膦酸配合的复合氧化物纳米催化剂稳定的O/W乳液中甲苯单一氧化为苯甲醛（英文）

苯甲醛是一种用途广泛的重要化学品,通过O2氧化甲苯制取苯甲醛是最佳生产途径,也是近几十年来工业界迫切需要的反应之一.虽然该反应在苄基上结合一个氧再脱除两个氢即可,对该反应的多相催化过程也已经研究了几十年,但其性能仍远远低于工业要求.当前的工业过程主要有甲苯氯化水解法和甲苯均相氧化法两种,但都存在严重的环境污染和腐蚀问题,且产品中含有少量卤素,阻碍了其在诸如香水或食品中的高端应用.近年来,以O2作为氧化剂及Pd,Au,Pt,Ag,Ru等贵金属或它们间的合金为催化剂的甲苯液相氧化反应研究取得了一些很好的进展,但仍然不能在高甲苯转化率下高选择性地得到苯甲醛.本课题组曾报道了一种高效的混相催化体系,以O2作为氧化剂将甲苯专一地催化氧化为苯甲醛,其中十六烷基膦酸-氧化铁(HDPA-FeOx)纳米颗粒处在甲苯和水的界面上,稳定了该O/W类皮克林乳液(Pickering).为了进一步提高催化剂晶格氧的移动性以提升催化活性,本文采用Mn, Co, Ni, Cu, Cr, Mo, V和Ti等一系列金属氧化物对催化剂HDPA-Fe Ox进行掺杂,同时使用一种特殊的纳米Al2O3作为载体,大大地增加了催化剂制备的便捷性和保证了催化剂在实际应用中的稳定性.TEM和XRD结果表明,Al2O3负载了金属氧化物后,其形貌仍为纳米棒状结构,并只能观察到Al2O3的晶相衍射峰,表明金属氧化物均匀地负载在其表面.BET结果表明,负载后的催化剂的孔结构与载体Al2O3类似.FT-IR结果表明,HDPA很好地吸附在了催化剂表面.TG结果表明,催化剂中HDPA含量与加入量相符,质量分数为~5%.结合前期工作可知,HDPA能够调整Fe M纳米棒表面催化性质,且以1 HDPA/nm2的密度为最佳,此时,甲苯液相氧化为苯甲醛的催化性能最佳.催化性能测试结果表明,催化剂吸附了HDPA后,甲苯的转化率显著增加,且只生成苯甲醛.在所考察的第二种掺杂金属中,以Ni的效果为最好.该催化剂在最佳反应条件下,甲苯转化率为83%(TOF=0.027nm–2·s–1),苯甲醛选择性为~100%.而Cr,Mo,V和Ti等高价金属则抑制了该反应,这也说明通过掺杂第二种金属调变晶格氧的活动性可影响反应性能.经过优化后,最佳反应条件为:p H值为2.5,反应温度为180°C.原位FT-IR结果表明, 180°C下,甲苯在吸附有HDPA的催化剂表面能够发生化学吸附,苄基C–H键解离并与晶格氧产生结合,形成了C6H5–CH2–O–Fe中间物种,该物种脱附即得苯甲醛.该温度下,表面HDPA对甲苯的化学吸附不可缺.     

VPO催化剂制备条件对其催化甲苯氨氧化反应性能的影响

 用浸渍法制备了负载型钒磷氧(VPO)催化剂,并以甲苯氨氧化合成苯甲腈为探针反应,考察了载体、还原剂、P/V比和V2O5负载量对催化剂性能的影响. 结果表明,大比表面积SiO2负载的VPO催化剂性能稳定,在高温下也具有较好的选择性. 采用不同还原剂制备的催化剂在反应一段时间后活性趋于一致,表明催化剂活性中心是在反应气氛下形成的. P/V比对催化剂活性和结构影响较大,P的加入破坏了V2O5的晶型结构,使磷酸盐物种从催化剂体相向表面聚集,减少了催化剂表面存在的过度氧化物种O-和O-2的数量,选择性氧化物种晶格氧(O2-)起主要氧化作用,提高了催化剂的选择性. V2O5负载量增大,催化剂活性提高,但生成苯甲腈的选择性降低. 表面单分子层覆盖的VOx可能是反应的活性位和选择性位.     

Selective synthesis of vitamin K3 over mesoporous NbSBA-15 catalysts synthesized by an efficient hydrothermal method

Well hexagonally ordered NbSBA-15 catalysts synthesized by an efficient hydrothermal method were used, for the first time, for the selective synthesis of vitamin K(3) by liquid-phase oxidation of 2-methyl-1-naphthol (2MN1-OH) under various reaction conditions. The recyclable NbSBA-15 catalysts were also reused to find their catalytic activities. To investigate the leaching of non-framework niobium species on the surface of silica networks, the results of original and recyclable NbSBA-15 catalysts were correlated and compared. To find an optimum condition for the selective synthesis of vitamin K(3), the washed NbSBA-15(2.2pH) was extensively used in this reaction with various reaction parameters such as temperature, time and ratios of reactant (2M1N-OH to H(2)O(2)), and the obtained results were also demonstrated. Additionally, the liquid-phase oxidation of 2M1N-OH was carried out with different solvents to find the best solvent with a good catalytic activity. Based on the all catalytic studies, the vitamin K(3) selectivity (97.3%) is higher in NbSBA-15(2.2pH) than that of other NbSBA-15 catalysts, and the NbSBA-15(2.2pH) is found to be a highly active and eco-friendly heterogeneous catalyst for the selective synthesis of vitamin K(3).     

担载纳米金催化乙醇选择氧化制乙酸乙酯

采用溶胶-凝胶法制备了一系列担载纳米金催化剂，用以催化乙醇选择氧化反应，模板剂的引入改变了催化剂载体的结构，从而提高了其催化活性和对乙酸乙酯的选择性，同时考察了反应温度、时间、以及催化剂制备方法对乙醇选择氧化反应的影响，实验结果表明使用以焙烧处理除去模板剂十八胺的Au／SiO2-O(C)为催化剂时，乙醇选择氧化一步制取乙酸乙酯的效果最佳，其选择性最高可达88．1％。     

BiMo基复合氧化物催化剂丙烷直接氧化至丙烯醛研究

The effects of the available zoon above the catalyst bed on the performance of the catalyst were investigated. It has been suggested that propylene is an intermediate species in the reaction of propane to acrolein， and a two-step reaction scheme is proposed， the first step is oxidative dehydrogenation of propane to propylene in the gas phase then followed by the second step， the selective oxidation of propylene to acrolein on the surface of the catalyst. The performance of the catalyst depends on both the oxidative dehydrogenation of propane to propylene in the gas phase and the selective oxidation of propylene to acrolein on the catalyst surface. The thermal cracking， homogeneous oxidative dehydrogenation and heterogeneous catalytic dehydrogenation of propane as well as the selective catalytic oxidation of propane to acrolein over BiMoO based mixed oxides catalysts were studied. Under the optimum reaction conditions of propane dehydrogenation and selective oxidation of propylene， the selectivity and the yield of acrolein approached to 45mol% and 14mol%， respectively under about 30mol% propane conversion.     

V-Mo-O催化剂的制备及催化甲苯合成苯甲醛的研究

在低温液相条件下,催化氧化甲苯合成苯甲醛是具有竞争力的苯甲醛合成路线。采用溶胶凝胶法制备了V-Mo-O催化剂,评估了在液相低温条件下选择性氧化甲苯的催化性能。研究表明,钒钼配比和焙烧温度对催化剂性能影响显著,适宜的钒钼物质量的配比为6:7,适宜的焙烧温度为500℃。扫描电镜实验表明,该条件下合成的催化剂呈棒状结构,直径约700nm,长度约6µm。X射线衍射观测到催化剂中拥有Mo6V9O40和MoO3物相。X光电子能谱表征,棒状催化剂外表面覆盖一层主含MoO3物种的薄层,这种不同氧化态钼物种的分层组装可能有助于氧物种的传递,提高了其催化性能。当反应温度为80℃,氧化剂为双氧水,溶剂为冰乙酸时,甲苯在该催化剂上的转化率为38.9%,苯甲醛的选择性为69.7%。     

Mn-Al和Cu-Mn-Al复合氧化物催化苯甲醇选择氧化反应

用溶胶-凝胶法制备了不同组成的Mn-Al和Cu-Mn-Al复合氧化物两组催化剂,用于苯甲醇选择氧化反应.用X射线衍射(XRD)、N2物理吸附(BET)、扫描电镜(SEM)、H_2程序升温还原(H_2-TPR)、O_2程序升温脱附(O_2-TPD)和X射线光电子能谱(XPS)技术对催化剂进行了结构表征,考察了催化剂组成对催化活性的影响.结果表明:以甲苯为溶剂,O_2为氧化剂,353 K反应5 h,Mn_2Al和Cu_(0.3)Mn_(0.7)Al_2催化剂上的苯甲醇转化率分别为36.6%和40.9%,苯甲醛选择性均为100%.进一步研究表明:催化剂活性与其H2还原性和O_2吸附性有关,高活性的催化剂吸附氧多,生成的活性氧易参与反应.     

Ag/SBA-15低温气相选择性催化氧化苯甲醇合成苯甲醛

以SBA-15为载体,采用浸渍法制备了不同Ag含量的Ag/SBA-15,通过N₂吸附-脱附、X射线衍射、扫描电子显微镜、高分辨透射电子显微镜、X射线光电子能谱和电感耦合等离子体质谱对催化剂进行了表征。将Ag/SBA-15用于苯甲醇气相选择性催化氧化合成苯甲醛,研究了反应条件对转化率和选择性的影响。结果表明,Ag/SBA-15具有均一的一维孔道结构、较厚的孔壁（3-5 nm）及较大的比表面积（411-541 m²/g）,其规整纳米空间的限域作用使一定负载量的Ag以纳米尺寸均匀分散于介孔SBA-15孔道内,增加了活性组分的比表面积。亲核性氧物种从Ag到SBA-15表面的氧溢流,提高了低温下Ag/SBA-15对苯甲醇气相选择性氧化合成苯甲醛的催化性能。5.3% Ag/SBA-15中的Ag粒径为5-6 nm,且均匀分散于载体孔道中,反应温度为220℃时,苯甲醇转化率为87%,苯甲醛选择性为95%;240℃时,苯甲醇转化率和苯甲醛选择性分别高达94%和97%;并在240-300℃范围内,其催化活性和选择性保持不变,表现出了良好的温度耐受能力。催化剂经活化再生可以连续使用40 h,选择性基本保持不变。     

碘改性的含铜复合氧化物催化氧化苯系物

制备了一系列碘改性的含铜介孔复合氧化物催化剂,并利用XRD、N₂吸脱附、H₂-TPR和元素分析对其进行了表征.以O₂为氧化剂,以甲苯氧化反应为探针,测试其催化性能,结果表明复合氧化物载体的元素组成显著影响催化剂的性能.在最优反应条件下,无需添加有机溶剂,甲苯转化率可达25.6%,主产物苯甲醛选择性为100%.进而将催化剂应用于其他苯系物（苯、乙苯、二甲苯）的氧化反应,也取得了较好的催化效果,且该催化剂可以循环使用多次.     

Selective Oxidation of Toluene with Hydrogen Peroxide Catalyzed by V-Mo-based Catalyst

The selective catalytic oxidation of toluene with hydrogen peroxide over V-Mo-based catalysts under mild conditions was studied.The promotion effect of Mo on the catalysts was studied with V/Al2O3 and Mo/Al2O3 as reference samples.The catalysts were characterized by XRD,TPR,and XPS techniques.The results show that the addition of Mo to V/Al2O3 may change the distribution of V species on Al2O3 surface.Over V-Mo/Al2O3 catalyst,highly dispersed amorphous V species facilitates benzaldehyde formation,and crystalline V2O5 species increases the conversion of toluene but decreases the selectivity to benzaldehyde,while AlVMoO7 species favors both the conversion of toluene and the formation of cresols.The yield of benzaldehyde depends remarkably on the surface O/Al and Mo/V atomic ratios,and gets to a maximum value of 13.2% with a selectivity of 79.5% at an O/Al atomic ratio of 3.0 and Mo/V atomic ratio of 0.7.     

溶胶-凝胶法制备Fe2(MoO4)3超微粒子催化剂

以硝酸铁和钼酸铵为原料，采用溶胶－凝胶法和微波加热技术制备了F 2(MoO4)3超微子催化剂，使用DTA－TG，IR，XRD以及BET比表面测试等手段，考察了制备条件对复合氧化物超微粒子形成、晶相和比表面积的影响。同时测试了该样品对甲苯选择性氧化制苯甲醛的催化性能。结果表明：制备Fe2(MoO4)2超微粒子的适宜条件为：初始溶液pH=1.0,mol柠檬酸：mol(铁＋钼）＝0．4。在此条件下制得的干凝胶，经微波加热处理后粒子的比表面积为36.4m^2/g，粒径约为35nm。在由甲苯气相选择氧化制苯甲醛的反应中表现出较高的催化活性。     

Influence of alkali metal doping on surface properties and catalytic activity/selectivity of CaO catalysts in oxidative coupling of methane

Surface properties （viz. surface area, basicity/base strength distribution, and crystal phases） of alkali metal doped CaO （alkali metal/Ca= 0.1 and 0.4） catalysts and their catalytic activity/selectivity in oxidative coupling of methane （OCM） to higher hydrocarbons at different reaction conditions （viz. temperature, 700 and 750 ℃; CH4/O2 ratio, 4.0 and 8.0 and space velocity, 5140-20550 cm^3 ·g^-1·h^-1） have been investigated. The influence of catalyst calcination temperature on the activity/selectivity has also been investigated. The surface properties （viz. surface area, basicity/base strength distribution） and catalytic activity/selectivity of the alkali metal doped CaO catalysts are strongly influenced by the alkali metal promoter and its concentration in the alkali metal doped CaO catalysts. An addition of alkali metal promoter to CaO results in a large decrease in the surface area but a large increase in the surface basicity （strong basic sites） and the C2＋ selectivity and yield of the catalysts in the OCM process. The activity and selectivity are strongly influenced by the catalyst calcination temperature. No direct relationship between surface basicity and catalytic activity/selectivity has been observed. Among the alkali metal doped CaO catalysts, Na-CaO （Na/Ca = 0.1, before calcination） catalyst （calcined at 750 ℃）, showed best performance （C2＋ selectivity of 68.8% with 24.7% methane conversion）, whereas the poorest performance was shown by the Rb-CaO catalyst in the OCM process.     

Ce_2Mo_3O_(12)超微粒子的制备及催化性能

以硝酸铈和钼酸铵为原料 ,采用溶胶 -凝胶法和微波加热技术制备了Ce2 Mo3 O12 超微粒子催化剂 ,使用DTA -TG ,IR ,XRD以及BET比表面测试等表征手段 ,考察了制备条件对复合氧化物超微粒子形成 ,晶相和比表面积的影响 .同时 ,测试了该样品对甲苯选择性氧化制苯甲醛反应的催化性能 .结果表明 :制备Ce2 Mo3 O12 超微粒子的适宜条件为 :初始溶液pH =1.0 ,柠檬酸 / (铈 +钼 )摩尔比等于 0 .4 ,在此条件下制得的干凝胶 ,经微波加热处理后 ,粒子的比表面积为 35 .8m2 /g ,粒径约为 4 0nm .在由甲苯气相选择氧化制苯甲醛的反应中表现出较好的催化活性     

Oxidation of propane to acrylic acid and acetic acid over alkaline earth-doped Mo-V-Sb-Ox catalysts

Alkaline earth metal (Mg, Ca, Sr and Ba)-doped Mo-V-Sb-Ox catalysts, prepared by a dry-up method, have been investigated for their catalytic performance in the oxidation of propane under different reaction conditions. The catalysts have been characterized by N2 adsorption-desorption, temperature-programmed desorption (TPD) of NH3, SEM and XRD. Influence of water vapor on the catalytic performance, particularly on the selectivities to acetic acid and acrylic acid, has also been studied. The selectivity to acrylic acid was improved significantly by the doping of alkaline earth metals to Mo-V-Sb-Ox catalysts. The surface acidic sites of the catalyst decreased with the doping of the catalyst with alkaline earth metals, which ultimately was found to be beneficial for obtaining high selectivity to acrylic acid. The catalytic activity and product selectivities were found to be influenced by the reaction temperature, C3H8/O2 ratio and space velocity. A significant improvement in the selectivity to acrylic acid has also been observed by the addition of water vapor in the feed of propane and oxygen in the oxidation of propane.     

Oxidation of propane to acrylic acid and acetic acid over alkaline earth-doped Mo-V-Sb-O_x catalysts

Alkaline earth metal (Mg,Ca,Sr and Ba)-doped Mo-V-Sb-O x catalysts,prepared by a dry-up method,have been investigated for their catalytic performance in the oxidation of propane under different reaction conditions.The catalysts have been characterized by N2 adsorption-desorption,temperature-programmed desorption (TPD) of NH3,SEM and XRD.Influence of water vapor on the catalytic performance,particularly on the selectivities to acetic acid and acrylic acid,has also been studied.The selectivity to acrylic acid was improved significantly by the doping of alkaline earth metals to Mo-V-Sb-O x catalysts.The surface acidic sites of the catalyst decreased with the doping of the catalyst with alkaline earth metals,which ultimately was found to be beneficial for obtaining high selectivity to acrylic acid.The catalytic activity and product selectivities were found to be influenced by the reaction temperature,C3H8/O2 ratio and space velocity.A significant improvement in the selectivity to acrylic acid has also been observed by the addition of water vapor in the feed of propane and oxygen in the oxidation of propane.     

Cu(II) 2-quinoxalinol salen catalyzed oxidation of propargylic,benzylic, and allylic alcohols using tert-butyl hydroperoxide in aqueous solutions

The synthesis of carbonyl compounds by oxidation of alcohols is a key reaction in organic synthesis. Such oxidations are typically conducted using catalysts featuring toxic metals and hazardous organic solvents. Considering green and sustainable chemistry, a copper(II) complex of sulfonated 2-quinoxalinol salen (sulfosalqu) has been characterized as an efficient catalyst for the selective oxidation of propargylic, benzylic, and allylic alcohols to the corresponding carbonyl compounds in water when in combination with the oxidant tert-butyl hydroperoxide. The reactions proceed under mild conditions (70 °C in water) to produce yields up to 99% with only 1 mol % of catalyst loading. This reaction constitutes of a rare example of propargylic alcohol oxidation in water, and it makes this process greener by eliminating the use of hazardous organic solvents. Excellent selectivity was achieved with this catalytic protocol for the oxidation of propargylic, benzylic, and allylic alcohols over aliphatic alcohols. The alcohol oxidation is thought to go through a radical pathway.     

二氧化硅包覆的杂多酸在双氧水存在条件下催化氧化甘油

催化剂的酸性和氧化还原性在催化生物质平台分子转化过程中起着非常重要的作用,杂多酸具有较强的酸性以及优良的氧化还原性,因而杂多酸在生物质催化转化领域备受关注。本文利用溶胶-凝胶法和硅烷化方法将杂多酸催化剂封装在二氧化硅载体内部,随后以傅立叶红外光谱、X-射线衍射仪、热重分析仪、透射电子显微镜、扫描电镜等手段对合成的材料进行了表征。红外光谱表明杂多酸在催化剂中保持了其完整结构,X-射线衍射表明杂多酸高度分散在二氧化硅载体上,电镜表征显示催化剂呈球形纳米颗粒形貌。基于以上表征结果,我们将包覆的杂多酸催化剂应用于甘油氧化,在以过氧化氢为氧化剂,温和反应条件下,合成的材料对甘油氧化具有良好的催化活性,其中对甲酸的选择性大约为70%,对乙醇酸的选择性大约为27%。硅烷化过程对于催化剂循环起着重要的作用,单纯二氧化硅的比表面积为287 m²·g^-1,二氧化硅包覆杂多酸经过硅烷化后,其比表面积降为245 m²·g^-1,而且孔径也有所降低。单纯二氧化硅与水的接触角为0°,而二氧化硅包覆的杂多酸在硅烷化之后的催化剂具有很强的疏水性,与水的接触角为137°。根据这些催化剂表征数据说明硅烷化过程不仅可以显著提高催化剂的疏水性,而且同时限制了载体孔径,阻止杂多酸流失到反应体系中,与传统的浸渍法将杂多酸负载在二氧化硅载体上得到的催化剂相比,催化剂的循环利用性显著提高。反应后的催化剂结构与新鲜催化剂相比,并没有发生明显变化。催化剂经过一次循环后,表面暴露了更多的活性中心,活性稍有提高。催化剂在反应体系中加入强质子酸可以显著提高反应的催化性能,揭示了Bronsted酸在甘油氧化过程中对甘油分子的活化起着重要的作用。