Preparation and Characterization of SiO2/Co and C/Co Nanocomposites as Fisher-Tropsch Catalysts for CO2 Hydrogenation

To fabricate high-density cobalt-based catalysts, we first synthesized SiO₂/C composites via a hydrothermal method and removed C and SiO₂ by two different methods, respectively. The as-prepared SiO₂ and C supports then reacted with cobalt acetylacetonate and N,N-dimethylformamide(DMF) under hydrothermal conditions to prepare SiO₂/Co and C/Co nanocomposite catalysts. The catalysts were characterized by X-ray diffraction(XRD), scanning electron microscope(SEM), transmission electron microscopy(TEM), inductively coupled plasma mass spectrometry(ICP), energy dispersive X-ray fluoresence spectrometer(EDX), and nitrogen adsorption. It was found that hexagonal cobalt nanocrystals were successfully integrated with the mesoporous silica or carbon nanotube supports. SEM and TEM results show that SiO₂/Co composites with a hollow/mesoporous sphere structure and C/Co composites with a tubular structure have been successfully synthesized. Both composite samples show superparamagnetism exhibiting an S-type hysteresis loop, which originated from the cobalt nanoparticles in the samples. Nitrogen adsorption/desorption curves suggest that the SiO₂ and C supports have well-developed pore structures and large specific surface areas, and the loading and good dispersity of cobalt nanoparticles on the supports were proven by ICP and EDX. Moreover, the samples exhibited good and stable catalytic activity, demonstrating that the two composites are suitable catalysts for Fischer-Tropsch CO₂ hydrogenation.     

用脉冲色谱法研究Pd-V2O5体系催化剂的吸附作用

本文用脉冲色谱法测定了Pd-V氧化物体系催化剂对乙烯、氧和二氧化碳的吸附作用。指出在接近反应温度下(80-100°C),Pd-V氧化物体系的催化剂对乙烯有可逆与不可逆两种吸附作用,而单独的PdO和V₂O₅以及载体SiO₂则只有可逆吸附作用。测定了不同温度下可逆吸附等温线,计算了吸附热,考查了不可逆吸附与催化剂中Pd含量之间的关系,指出在Pd-V氧化物催化剂上,乙烯的不可逆吸附量与催化氧化活性一样,是与Pd含量有关的。测定了预吸附氧有利于乙烯的不可逆吸附,而CO₂则不能牢固的吸附在催化剂表面上。     

飞灰中的缺陷位SiO_2对痕量元素As的吸附机理

为了认识痕量元素As在飞灰中的富集特性,利用密度泛函理论研究了砷的典型氧化物AsO在飞灰中的主要成分SiO_2模型上的吸附机理,对优化后的吸附构型进行能量计算、AIM理论、Mulliken电荷分析以及定域化轨道指示函数(LOL)填色图分析,剖析了AsO与SiO_2表面的相互作用。结果表明,AsO在无定型SiO_2表面的缺陷位的吸附能均大于50 k J/mol,吸附构型均为典型的化学吸附。在无定型SiO_2缺陷活性位点形成的As-Si键、Si-O键和As-O键强度较大,均属于共价键;SiO_2与AsO之间为共价相互作用。     

Study of an iron-based Fischer–Tropsch synthesis catalyst incorporated with SiO2

The effect of adding SiO₂ to a precipitated iron-based Fischer–Tropsch synthesis (FTS) catalyst was investigated using N₂ physical adsorption, H₂ differential thermogravimetric analysis, temperature-programmed reduction/desorption (TPR/TPD) and Mössbauer spectroscopy. The FTS performances of the catalysts with or without SiO₂ were compared in a fixed bed reactor. The characterization results indicated that SiO₂ facilitates the high dispersion of Fe₂O₃ and significantly influences the Fe/Cu and Fe/K contacts, which play an important role in the surface basicity, reduction and carburization behaviors, as well as the FTS performances. The incorporation of SiO₂ enhances the Fe/Cu contact, further enlarges the H₂ adsorption and promotes the reduction of Fe₂O₃ → FeO_x, while the transformation of FeO_x → Fe is suppressed probably due to the strong Fe–SiO₂ interaction. SiO₂ indirectly weakens the surface basicity and severely suppresses the carburization and CO adsorption of the catalyst. In the FTS reaction, it was found that SiO₂ decreases the FTS initial activity but improves the catalyst stability. Due to the lower surface basicity than the catalyst without SiO₂, the catalyst incorporated with SiO₂ has higher selectivity to light hydrocarbons and methane and decreased selectivity to the olefins and heavy hydrocarbons.     

固体添加剂对垃圾掺烧污泥焚烧飞灰高温过程中重金属挥发特性的影响

在研究垃圾与污泥掺烧后焚烧飞灰中重金属浸出特征的基础上,重点研究了飞灰在1 000 ℃条件下高温处置过程中重金属(Cu、Zn 、Pb、Cd)随不同停留时间的挥发特性及添加剂(CaO、Al₂O₃、SiO₂、高岭土、粉煤灰)对重金属转化与挥发特性的影响。研究结果表明,飞灰中重金属Zn、Pb、Mn含量较高,Ni的含量较低,而毒性较大的Cd达到29.4 mg/kg。浸出液中七种金属都满足危险废物鉴别标准(GB5085.3-1996),并且重金属的浸出浓度受浸取时间及浸取液pH值影响较大。在同样的高温处置条件下,焚烧飞灰中不同重金属的挥发特性有较大的差别。其中,Pb表现出易挥发的特性,其挥发率超过80%,而Cu挥发性较小,其挥发率小于30%。综合来看,飞灰中重金属的挥发性大小依次为Pb>Cd>Zn>Cu。飞灰中添加Al₂O₃和高岭土可以抑制Cd的挥发,添加Al₂O₃后Pb的挥发率有所减少,添加SiO₂、CaO、高岭土、粉煤灰均使Zn的挥发率降低,而对Cu的挥发率没有抑制作用,这与飞灰中高Cl含量及各痕量元素化合物对固体添加剂活性位选择性的竞争吸附有关。     

等离子体技术对CO2甲烷化用Ni/SiO2催化剂的改性作用

采用浸渍法制备了Ni/SiO₂催化剂,应用等离子体技术对催化剂进行改性处理。以CO₂甲烷化为模型反应对催化剂进行活性评价,通过H₂程序升温还原(H₂-TPR)和CO₂程序升温脱附(CO₂-TPD)技术对催化剂进行表征。研究了等离子体技术强化处理对催化剂吸附性能和还原性能的影响。结果表明,与常规焙烧的催化剂相比,等离子体技术改性处理提高了催化剂活性组分的分散度,增加反应活性位并调变了活性位对吸附物种的吸附强度,改进了催化剂的还原性能,CO₂甲烷化反应活性和甲烷的时空产率显著提高。     

刷状结构的阳离子性接枝微粒QPDMAEMA/SiO_2对牛血清白蛋白的吸附特性

以微米级硅胶微粒为基质,通过接枝聚合和大分子反应,制备了具有刷状结构的阳离子性接枝微粒,深入研究了其对牛血清白蛋白(BSA)的强吸附能力、吸附机理和吸附热力学.首先使含叔胺基团的单体甲基丙烯酸二甲基氨基乙酯(DMAEMA)在硅胶微粒表面发生接枝聚合,制得接枝微粒PDMAEMA/SiO2,然后以氯乙胺为试剂,使接枝大分子PDMAEMA链中的叔胺基团发生季铵化反应,获得了具有刷状结构的阳离子聚电解质的功能接枝微粒QPDMAEMA/SiO2.测定了微粒QPDMAEMA/SiO2的zeta电位,实施了对BSA的等温吸附实验,考察了介质pH值、离子强度及温度对吸附作用的影响,研究了吸附热力学.研究结果表明,功能接枝微粒QPDMAEMA/SiO2比接枝微粒PDMAEMA/SiO2具有更高的zeta电位,在静电相互作用驱动下,微粒QPDMAEMA/SiO2对BSA具有很强的吸附能力.吸附容量随介质pH值的增大呈现先增大后减小的变化趋势,当pH值等于BSA的等电点(pI=4.7)时,具有最高的吸附容量(高达112 mg?g-1).以等电点为界,离子强度对吸附容量会产生完全相反的影响作用:当介质pH值小于BSA的等电点时,电解质浓度增大,吸附容量增高;当介质pH值等于BSA的等电点时,吸附容量几乎不随电解质的浓度发生变化.吸附过程熵值减小而且放出热量,是一个焓驱动的吸附过程.     

Sn-promoting mechanism for ketone hydrogenation over Rh/SiO2

Hydrogenation of acetophenone, 2-butanone, styrene and 1-hexene over Rh---Sn/SiO₂ in heterogeneous liquid phase reaction systems was studied by in situ EXAFS, FT-IR, TEM, analytical TEM, CO and H₂ adsorption measurements. The catalytic activity of Rh/SiO₂ for hydrogenation of acetophenone and 2-butanone increased by a factor of 5–500 by Sn addition, showing a maximum activity at surface composition Sn_s/Rh_s = 1.5, whereas hydrogenation of styrene and 1-hexene decreased monotonously and drastically by Sn addition. In situ Sn K-edge EXAFS of the well characterized CVD-Rh---Sn/SiO₂ catalyst prepared by using Sn(CH₃)₄ vapor suggested that oxygen of C=O group makes a bond with Sn atom upon acetophenone adsorption.     

新型Brnsted-Lewis酸性催化剂LaPW_(12)O_(40)/SiO_2制备及其在催化酯化反应合成生物柴油中的应用

以十二磷钨杂多酸(Tungstophosphoric acid,H_3PW_(12)O_(40))为基体,分别通过普通浸渍法、溶胶凝胶法和超声浸渍法进行了La3+改性作用,合成了三种固体酸催化剂A-LaPW_(12)O_(40)、B-LaPW_(12)O_(40)/Si O2和C-LaPW_(12)O_(40)。采用X射线荧光光谱(XRF)、孔径比表面积测定、X射线粉末衍射(XRD)、透射电镜(TEM)、红外光谱(FT-IR)、热重(TG)、N2吸附-脱附、NH3程序升温脱附(NH3-TPD)、吡啶吸附红外光谱(Py-FTIR)、X射线光电子能谱(XPS)等方法对合成的催化剂进行了表征,并比较了以上催化剂在用于催化以油酸和甲醇为反应物经酯化反应合成生物柴油时的活性和稳定性。结果表明,B-LaPW_(12)O_(40)/Si O2具有最高催化活性,当甲醇与油酸的物质的量比为8∶1,催化剂用量为反应物总质量的2%,反应温度为65℃,反应1 h后,油酸的转化率即高达93%。循环使用B-LaPW_(12)O_(40)/Si O2催化剂六次后,油酸的转化率仍高达86.4%。B-LaPW_(12)O_(40)/Si O2的高催化活性和稳定性可归因于在溶胶凝胶的转化过程中,作为硅源材料的四乙氧基硅(TEOS)易在酸性条件下发生水解反应形成Si O2网络,进而Si O2网络中的硅醇键与H_3PW_(12)O_(40)中的H+发生配位作用,生成具有强静电吸附力的(≡Si-OH2+)(H2PW12O-40)络合物。随着该络合物的形成,促进了La3+在Si O2表面的吸附而堵塞了H_3PW_(12)O_(40)的孔道结构,抑制了H_3PW_(12)O_(40)颗粒在焙烧过程中进一步聚集长大。Si O2将作为载体并以干凝胶状态存在于B-LaPW_(12)O_(40)/Si O2催化剂中,由于Si O2凝胶的高比表面积而使B-LaPW_(12)O_(40)/Si O2具有了较大的比表面积,从H_3PW_(12)O_(40)的1.4 m2/g增加至31.3 m2/g。并且,通过吡啶吸附红外光谱确定B-LaPW_(12)O_(40)/Si O2为Br9nsted-Lewis酸型固体酸,由于Br9nsted酸位易与酯化反应过程中生成的水发生水合反应而失活,因而Lewis酸位的形成有助于减少催化剂的失活现象发生。Lewis酸位的出现可归因于(≡Si-OH2+)(H2PW12O-40)与吸附在其表面的具有强吸电子作用的La3+发生键合作用后生成了LaPW_(12)O_(40)/Si O2。     

Aluminum-type superparamagnetic adsorbents: Synthesis and application on fluoride removal

Two effective types of superparamagnetic nano-scale adsorbents of bayerite/SiO₂/Fe₃O₄ have been synthesized via three sequential steps: chemical precipitation of Fe₃O₄, coating of SiO₂ on Fe₃O₄ using acidifying method, and further coating of bayerite (Al(OH)₃) on SiO₂/Fe₃O₄ adopting sol–gel (MASG) or homogeneous precipitation (MAHP) methods. The characteristics of MASG and MAHP were identified using the transmission electron microscopy (TEM) micrograph, scanning electron microscopy with energy dispersive X-ray spectroscopy (SEM/EDX), X-ray powder diffractometer (XRD), and superconducing quantum interference device (SQUID). Removal of fluoride from aqueous solution was examined to evaluate the adsorptive capacity of MASG, MAHP, and commercial activated alumina (CA), and the effects of enclosure of Fe₃O₄ with SiO₂ for SiO₂/Fe₃O₄, MASG, and MAHP particles. Among the adsorbents tested under the same experimental condition, MASG is the most effective adsorbent, of which the adsorption capacities are 38 g/kg (based on adsorbent mass of adsorption in terms of equilibrium constant q_L of Langmuir isotherm), and can compete with CA even at a high pH value. The innovative superparamagnetic adsorbents synthesized in this study possess physicochemical stability at pH range of 6–8 and great potential in the adsorption processes due to not only their high adsorption capacity but also the conveniently magnetic separation which can overcome the difficulty in solid–liquid separation for nano-particles in solutions.     

表面改性SiO2对SSBR/BR绿色轮胎胎面胶结构与性能的影响

采用4种含不同官能基团修饰剂改性的二氧化硅SiO₂增强溶聚丁苯橡胶(SSBR)/顺丁橡胶(BR)共混体系, 制备了SSBR/BR/SiO₂橡胶纳米复合材料, 研究了其结构与性能. 结果表明, 在混炼胶体系中, 与未改性SiO₂填充的SSBR/BR相比, 改性SiO₂填充的SSBR/BR门尼黏度及结合橡胶含量显著增大, 表明填料-橡胶相互作用显著提高; 硫化焦烧时间缩短60%, 硫化速度增大了35%~40%. 在硫化胶体系中改性SiO₂填充的SSBR/BR具有更大的交联密度, 填料分散性明显改善, 同时也表现出更为优异的物理机械性能, 100%和300%定伸模量提高47%以上, 旋转滚筒式磨耗机法(DIN)磨耗降低5%~12%, 生热降低了约7%~13%, 热空气老化性能提升4%~22%, 代表滚动阻力的tanδ在60 ℃降低8%~13%. 此外, 与SSBR/BR/1165MP硫化胶相比, 用90 mmol/kg氨基改性SiO₂填充的SSBR/BR硫化胶的抗湿滑性能提高6.9%, 表现出最优的综合性能. 填料的良好分散及填料与聚合物的相互作用增强对于提高SSBR/BR/SiO₂胎面胶综合力学性能具有重要意义.     

分子印迹聚合物功能化二氧化硅纳米颗粒的合成及其分离识别马兜铃酸

马兜铃酸是马兜铃科植物中含有硝基菲羧酸基团的一类物质,被广泛应用于各种疾病的治疗,研究表明含有马兜铃酸的植物或植物衍生产品对人体有害,需要监测药物中马兜铃酸的存在。分子印迹聚合物对目标物的高亲和力使其特别适合作为吸附剂从混合物中去除和识别目标物。以SiO₂胶体纳米颗粒为基底,利用表面分子印迹的方法合成了核-壳结构SiO₂表面印迹纳米颗粒(SiO₂@MIP NPs)。采用紫外可见光谱研究了模板分子马兜铃酸Ⅰ和功能单体丙烯酸、甲基丙烯酸、2-乙烯基吡啶、丙烯酰胺及甲基丙烯酰胺的作用,发现2-乙烯基吡啶与马兜铃酸Ⅰ的作用最强,被选为制备印迹聚合物的单体。采用傅立叶变换红外光谱仪(FT-IR)、透射电子显微镜(TEM)、热重分析仪、氮气吸附比表面分析仪对分子印迹聚合物进行了表征。TEM显示印迹纳米颗粒的粒径在270 nm左右,分子印迹层的厚度为35 nm,有利于模板分子的传输。TEM、FT-IR和热重分析仪的结果均证明实验成功合成了分子印迹聚合物。实验进一步研究了印迹聚合物SiO₂@MIP NPs和非印迹聚合物SiO₂@NIP NPs的吸附性能,并结合SiO₂@MIP NPs和SiO₂@NIP NPs的比表面积和孔径测定数据,发现SiO₂@MIP NPs表面的印迹位点是导致二者吸附差异的主要原因。SiO₂@MIP NPs和SiO₂@NIP NPs的动力学吸附表明SiO₂@MIP NPs具有快的吸附平衡时间(120 s),而且SiO₂@MIP NPs的吸附行为符合Langmuir单分子层吸附。SiO₂@MIP NPs的选择性通过印迹因子(IF)和选择性系数(SC)来评价。实验结果表明,SiO₂@MIP NPs具有高的印迹因子(4.9),对模板结构类似物有较好的选择性,选择系数为2.3~6.6。最后将制备的SiO₂@MIP NPs作为吸附剂用于加标中药样品川木通的预处理,用HPLC进行分析测定,方法的回收率为73%~83%,实验结果显示SiO₂@MIP NPs可作为高选择性材料用于中药中马兜铃酸的选择性分离分析。     

Rh-V/SiO2上H2的化学吸附方式

CO加氢反应机理是许多研究者感兴趣的课题.负载的Rh是CO加氢反应的优良催化剂.CO在Rh上吸附态的研究已有许多报道,而对H₂有关的吸附态的研究却少见报道.     

Adsorption of bacterial surface polysaccharides on mineral oxides is mediated by hydrogen bonds

Adhesion of bacterial cells to solid surfaces is often largely affected by bacterial surface polymers. In this study, we investigated the adsorption of three different O-antigens isolated from bacterial lipopolysaccharides on TiO₂, Al₂O₃, and SiO₂. The O-antigens of Escherichia coli 08 DSM 46243 and Citrobacter freundii PCM 1487 had high affinity for TiO₂ and low affinity for Al₂O₃, whereas the O-antigens of Stenotrophomonas maltophilia 70401 had low affinities for both surfaces. Adsorption on SiO₂ was low for all polysaccharides. The dependence of the adsorption on the molecular mass of polysaccharides was investigated with dextrans of various chain lengths. The affinity increased with the molecular mass. The affinity of the dextrans was reduced compared with the O-antigen of E. coli, which had similar chemical composition and molecular mass. The adsorption of the E. coli and C. freundii O-antigens on Al₂O₃ and TiO₂ was irreversible, whereas for the S. maltophilia O-antigen it was partially reversible. The reversibility of dextran adsorption decreased with increasing molecular mass.

Infrared spectroscopy showed that all bacterial O-antigens and the dextrans formed hydrogen bonds with surface hydroxyl groups or interacted with surface-bound water of TiO₂, Al₂O₃, and SiO₂. A concentration-dependent mechanism of adsorption was observed with TiO₂. At low polysaccharide concentrations, the surface water molecules ware replaced by the polysaccharides, and at increased concentration the surface hydroxyl groups were involved in the formation of hydrogen bonds. At higher surface coverages, the adsorbed polysaccharides formed loops between the few adsorbed units.     

SiO2@Fe2O3核-壳结构催化剂的制备及表征

采用优化的Stöber法制备了平均粒径为230 nm的单分散球形SiO₂颗粒,并以此为内核,通过水解沉积法制备了不同壳层厚度的核-壳结构SiO₂@Fe₂O₃催化剂。采用扫描电子显微镜(SEM)、透射电子显微镜(TEM)、N₂物理吸附和X射线衍射分析(XRD)等手段对催化剂进行表征,探讨了不同制备条件对SiO₂@Fe₂O₃催化剂形貌的影响。结果表明,通过水解沉积法制备的SiO₂@Fe₂O₃催化剂具有明显的核-壳结构,并且保持了原始SiO₂核的球形形貌,Fe₂O₃纳米粒子通过-OH的氢键作用连接在SiO₂表面,形成了2~10 nm厚的Fe₂O₃均匀连续包覆层。     

金属助剂对Ni/SiO2催化剂苯甲醚加氢脱氧性能的影响

采用等体积浸渍法制备了Ni/SiO₂及Ni与金属助剂M（M=Fe、Co、Cu、Zn及Ga）物质的量比为30的Ni基双金属催化剂（记作Ni₃₀M/SiO₂）,利用H₂-TPR、XRD、H₂化学吸附、NH₃-TPD以及N₂物理吸附-脱附等手段对催化剂进行了结构表征,研究了不同助剂对催化剂结构与苯甲醚加氢脱氧性能影响。结果发现,金属助剂影响了催化剂前驱体中镍物种的还原性能,表明金属助剂及镍之间存在一定相互作用。Ni₃₀M/SiO₂中Ni-M双金属晶粒粒径和Ni/SiO₂中金属Ni晶粒粒径相近。由于表面张力较低的金属会在双金属晶粒表面富集,Ni₃₀M/SiO₂的H₂化学吸附量不同程度地低于Ni/SiO₂。另外,Ni₃₀M/SiO₂催化剂的酸量（尤其较弱酸中心酸量）高于Ni/SiO₂。在300℃、常压、苯甲醚质量空速1.0 h^-1及H₂与苯甲醚物质的量比为25：1条件下考察了各催化剂苯甲醚的加氢脱氧性能。Ni₃₀M/SiO₂上苯甲醚转化率不同程度低于Ni/SiO₂,原因在于Ni₃₀M/SiO₂催化剂H₂化学吸附量较低。Ga及Zn改性催化剂上三苯（包括苯、甲苯及二甲苯）选择性分别为81.7%和76.8%,高于Ni/SiO₂（71.5%）,且Ni₃₀Ga/SiO₂及Ni₃₀Zn/SiO₂上三苯收率（分别为65.0%及63.8%）高于或接近于Ni/SiO₂（63.7%）。Ni/SiO₂及Ni₃₀M/SiO₂催化剂中,Ni₃₀Zn/SiO₂具有较高甲基转移能力及较低C-C键氢解活性。从提高碳收率、降低耗氢量角度而言,Ni₃₀Zn/SiO₂具有较佳的加氢脱氧性能,与Ni和Zn之间作用及Zn亲氧性高于Ni有关。     

铈基复合氧化物催化剂在SiO_2表面的失活机制

以甲苯催化燃烧为模型反应,通过调节不同Cu-Mn-Ce(CMC)复合氧化物在多孔SiO_2(KIT-6)上的负载量,研究了SiO_2表面与CMC作用对催化剂物理化学性能的影响。发现低负载量下CMC氧化物出现明显失活现象,与SiO_2接触会抑制氧化物活性相的形成,SiO_2量的减少可使CMC复合氧化物活性得到逐步恢复。X射线衍射(XRD)、程序升温还原(H2-TPR)、N2吸附(BET)和透射电镜(HRTEM)等表征表明,SiO_2不对CMC晶相结构产生影响,这种失活机制是由于SiO_2表面的丰富羟基作用,导致表面氧化物高度分散,活性氧物种从晶格氧转变为表面氧。复合氧化物的晶格氧对催化燃烧起到关键性作用,通过焙烧去除SiO_2表面羟基和减少SiO_2用量,可使复合氧化物晶格氧的数量增加,恢复复合氧化物催化剂活性。     

The photocatalytic activity of TiO2 foam and surface modified binary oxide titania nanoparticles

Surface modified titania dioxide composite nanoparticles prepared by hydrogen reduction reaction and a mesoporous TiO₂ foam made from a surface modifier and a long chain organic surfactant were characterized by diffractive, spectroscopic and microscopic techniques and studied for their catalytic activity towards the decomposition of an industrial water pollutant, methyl orange. The surface deposition of ruthenium and silicon particles improved the photocatalytic activity of the composite particles resulting in a faster decomposition of the methyl orange compared to commercial TiO₂ alone. Modification of TiO₂ with RuO₂ only offered a marginal benefit over TiO₂ while the incorporation of RuO₂ and SiO₂ into TiO₂ resulted in a marked increase in the rate constant and catalytic activity. These results are consistent with the enhanced surface properties of the composite materials resulting from the modification of TiO₂ with RuO₂ and SiO_2. This surface enhancement effects appear synergetic to the charge separation process and hence the photocatalytic results are explained on the basis of a mechanism involving efficient charge transfer across the interfaces of the composites involving photogenerated electron–hole pairs. Results obtained in this study show that the percentage degradation after 1 h of illumination was 47.15% for TiO₂ foam, 75.5 and 106.4%, respectively, for TiO₂/RuO₂ (SiO₂ 5%, w/w) and TiO₂/RuO₂(SiO₂ 10%, w/w) and 34.15% for commercial TiO₂.     

不同载体对负载型Cu-Fe催化剂CO加氢反应性能的影响

以不同的氧化物为载体,采用共浸渍法制备了一系列负载型的Cu-Fe催化剂Cu-Fe/MO_x(MO_x=ZnO、ZrO₂、TiO₂、SiO₂、MgO、Al₂O₃),并采用X射线衍射(XRD)、N₂吸附(N₂-adsorption)、程序升温还原(H₂-TPR)和一氧化碳程序升温脱附(CO-TPD)技术对催化剂进行了表征。在温度为250℃、压力为3 MPa和原料气空速为6 000 mL/(g·h)的反应条件下,在连续流动微型固定床反应装置上考察了其催化CO加氢合成低碳醇的反应性能。结果表明,与其他氧化物为载体的催化剂相比,Cu-Fe/SiO₂催化剂表面CuO的分散度较高,在较低的温度下容易被还原,具有较强的CO吸附能力,从而同时具有较高的活性和低碳醇选择性。     

制备方法对Ni2P/SiO2催化剂结构及萘加氢性能的影响

采用程序升温还原法和次磷酸盐歧化法制备了Ni_2P/SiO_2催化剂,结合现代仪器分析表征技术,研究了制备方法对Ni_2P/SiO_2催化剂结构和萘加氢性能的影响。结果表明,两种方法均可制备出仅含Ni_2P活性相的Ni_2P/SiO_2催化剂,在反应温度340℃、氢气压力4 MPa、空速为20.8 h~(-1)下,程序升温还原法制备的Ni_2P/SiO_2催化剂表现出更高的萘加氢活性,这主要是因为程序还原法制备的Ni_2P/SiO_2催化剂中有更多Ni_2P物种生成,提供了较多的活性位点(CO吸附量21.6μmol/g);且催化剂表面弱酸位点多,有利于芳烃吸附。当选用程序升温还原法制备Ni_2P/SiO_2催化剂时,在保证生成纯相Ni_2P的前提下,较低的Ni/P比更有利于合成高加氢活性的Ni_2P/SiO_2催化剂。