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1.
The preparation of a new nickel(0)/Al2O3 catalyst for hydrogenation reactions is described. The nickel(0)/Al2O3 catalysts were prepared by impregnation of alumina with a solution of a nickel(II) salt. After drying, the nickel(II) salt was reduced under mild conditions into nickel(0) using t‐BuONa‐activated sodium hydride in tetrahydrofuran at 65 °C. The nickel(0)/Al2O3 catalysts obtained were characterized by transmission electron microscopy and energy‐dispersive X‐ray spectroscopy. The supported catalysts were successfully used in solution‐phase hydrogenation of double and triple bonds. Although the activity of the nickel(0)/Al2O3 is comparable to non‐supported nickel(0) reagents, it has the advantage of being reusable more than ten times with only a slight decrease of reactivity. Copyright © 2003 John Wiley & Sons, Ltd. 相似文献
2.
Chiral 1,5‐cyclooctadiene rhodium(I) cationic complexes with C2‐symmetric chelate diphosphoramidite ligands containing (R,R)‐1,2‐diaminocyclohexane as the backbone and two atropoisomeric biaryl units were easily synthesized and fully characterized by multinuclear one‐ and two‐dimensional NMR spectroscopy and elemental analysis. These complexes were used as catalysts in the asymmetric hydrogenation of dimethyl itaconate, methyl 2‐acetamidoacrylate and (Z)‐methyl‐2‐acetamido‐3‐phenylacrylate. The rhodium complexes derived from diphosphoramidite ligands that contain two (R) or (S) BINOL (2,2′‐dihydroxy‐1,1′‐binaphthyl) units proved to be efficient catalysts, giving complete conversion and very good enantioselectivity (up to 88% ee). An uncommon positive H2 pressure effect on the enantioselectivity was observed in the hydrogenation of dimethyl itaconate catalyzed by Rh‐complex with diphosphoramidite ligand that contains two (S)‐binaphthol moieties. Copyright © 2014 John Wiley & Sons, Ltd. 相似文献
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以聚乙烯吡咯烷酮(PVP)为稳定剂,采用化学还原法制备了PVP-NiB非晶态催化剂,通过红外光谱、X射线衍射、透射电子显微镜和电感耦合等离子体光谱对催化剂进行了表征.结果表明,PVP不仅能够提高NiB纳米颗粒的分散度,而且对其起到稳定作用;将该催化剂首次应用于苯酚及其衍生物的催化加氢反应,在水相体系中,30°C及氢气压力0.2 MPa时,苯酚的转化率和环己醇的选择性都能够达到99.9%;酚类衍生物加氢反应结果发现,该催化剂有利于环己醇类物质的生成,初步考察了PVP-NiB非晶态催化剂的构效关系. 相似文献
4.
Iron phthalocyanine as new efficient catalyst for catalytic transfer hydrogenation of simple aldehydes and ketones 
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下载免费PDF全文 Catalytic transfer hydrogenation (CTH) of various aldehydes and ketones was studied using iron phthalocyanine catalyst, in order to substitute the typically used rare transition metals (Ir, Rh, Ru) with an easily available and less expensive metal. Iron phthalocyanine was found to be an efficient hydrogenation catalyst and its immobilized version was successfully prepared. The immobilized iron phthalocyanine was also active in the CTH reaction of various carbonyl compounds, and it was easy to handle and possible to recycle. Copyright © 2014 John Wiley & Sons, Ltd. 相似文献
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SiO2负载的Au-Ni双金属催化剂在乙炔选择加氢反应中的应用 总被引:1,自引:0,他引:1
负载型Au催化剂在乙炔选择加氢反应中表现出很高的乙烯选择性,但其转化率相对较低.通过添加第二种金属如Pd,Fe,Ag和Cu等,制备双金属催化剂是提高其在加氢反应中催化活性的一种非常有效的手段.其中Au-Pd双金属催化剂是最受关注的体系之一,Pd的加入可以非常显著地提高其催化乙炔选择加氢反应的活性.据文献报道,与Pd同一主族的Ni也具有较好的加氢活性.尽管与Pd相比,Ni很难与Au形成合金,但目前已有Au-Ni双金属催化剂在多种反应中表现出协同效应的报道,如水气变换、CO氧化以及芳香硝基化合物选择加氢等.因此,向Au催化剂中添加Ni也可能提高催化剂在乙炔选择加氢反应中的催化活性.因此,我们采用两步法制备了一系列SiO2负载的具有不同Ni:Au原子比的Au-Ni双金属催化剂,并将其用于乙炔选择加氢反应,发现Au-Ni双金属催化剂在该反应中表现出了显著的协同效应,其活性明显优于相应单金属催化剂的活性.尽管其乙烯选择性略低于单金属Au催化剂,但明显高于单金属Ni催化剂.通过调节还原温度和/或Ni:Au的比例,对催化剂的性能进行了优化.结果显示,当Ni:Au=0.5时,催化剂表现出最优的综合性能,即兼具较高的乙炔转化率和乙烯选择性.为了研究Au-Ni双金属催化剂中金属纳米粒子的结构、组成以及Au-Ni之间的相互作用,我们对催化剂进行了X射线衍射(XRD)、高分辨透射电镜(HRTEM)、能量散射谱(EDS)以及原位红外光谱(DRIFTS)表征.XRD和TEM结果显示,催化剂中的Au-Ni双金属纳米粒子都具有高分散和粒径均匀的特点.通过EDS分析,发现在Au-Ni双金属催化剂中的单个金属纳米粒子同时含有Au和Ni两种元素,尽管每个纳米粒子中Ni:Au的比例有差异.HRTEM结果发现,Au-Ni双金属纳米粒子的晶格间距介于Au(111)和Ni(111)的晶面间距之间,说明在Au-Ni双金属催化剂中有Au-Ni合金形成.原位DRIFTS结果显示,在Au-Ni双金属催化剂中,Au的存在促进了Ni的还原,说明Au与Ni之间存在紧密的相互作用.综上可见,Au和Ni在乙炔选择加氢反应中所表现出的协同效应主要归功于Au-Ni合金的形成,其中金属态Ni起主要的活性作用,而Au的存在则提高了催化剂的乙烯选择性. 相似文献
6.
Cuong Pham-Huu Nicolas Keller Gabrielle Ehret Loïc J. Charbonniere Raymond Ziessel Marc J. Ledoux 《Journal of molecular catalysis. A, Chemical》2001,170(1-2):155-163
Carbon nanofibers (CNFs) prepared by decomposition of ethane over a Ni/alumina catalyst, are used as support for palladium clusters. The carbon support displays a mean diameter of 40–50 nm, lengths up to several tens of micrometers, as highlighted by transmission electron microscopy (TEM) observations and a specific surface area of about 50 m2/g. The spheroidal palladium particles have a relatively homogeneous and sharp size distribution, centered at around 4 nm. This novel Pd/carbon nanofiber catalyst displays unusual catalytic properties and is successfully used in the selective hydrogenation of the C=C bond in cinnamaldehyde at a reaction temperature of around 80°C, under continuous hydrogen flowing at atmospheric pressure. The high performances of this novel catalyst in terms of efficiency and selectivity are, respectively, related to the inhibition of the mass-transfer processes over this non-porous material and to peculiar palladium–carbon interactions. It is concluded that the absence of microporosity in the carbon nanofibers favours both the high activity and selectivity which is confirmed by comparison with the commercially available high surface area charcoal supported palladium catalyst. 相似文献
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S. Nishiyama T. Kubota K. Kimura S. Tsuruya M. Masai 《Journal of molecular catalysis. A, Chemical》1997,120(1-3):L17-L22
Selective hydrogenation of unsaturated aldehydes, crotonaldehyde (CH3CH=CHCH=O) and cinnamaldehyde (C6H5CH=CHCH=O), has been studied over SiO2-supported monometallic Sn and bimetallic Rh---Sn catalysts in the liquid phase. Over a silica-supported monometallic Rh catalyst, Rh/SiO2, no unsaturated alcohol (crotyl alcohol or cinnamyl alcohol) was formed, whereas considerable amounts of the corresponding saturated aldehyde and saturated alcohol were obtained. The selectivity to the unsaturated alcohol was improved over the Rh---Sn bimetallic catalyst. The selectivity to the corresponding unsaturated alcohol attained ca. 65% over the Rh---Sn bimetallic catalysts. On the other hand, The supported Sn catalyst showed markedly high selectivity to the unsaturated alcohols. The selectivity of the Sn/SiO2, attained 95% to crotyl alcohol and 100% to cinnamyl alcohol, respectively. Although the conversion of each unsaturated aldehyde over Rh---Sn/SiO2 catalysts was greater than that over Sn/SiO2 catalysts, the selectivity of Sn/SiO2 catalysts to the corresponding unsaturated alcohols was superior to that over Rh---Sn/SiO2. The selectivity of Sn/SiO2 was also compared with that of Rh---Sn/SiO2 at a similar conversion of the unsaturated aldehydes. The selectivity of Sn/SiO2 was significantly greater than that of the Rh---Sn bimetallic catalyst. These results indicate that the high selectivity over Sn/SiO2 was ascribed not to low conversion but to intrinsic selectivity of the Sn catalyst. 相似文献
9.
Polystyrene supported Rh(I) AA′ (AA′ = anthranilic acid, 2,2′-bipyridine or 1,10-phenanthroline) complexes catalyse the hydrogenation
of monoolefins (terminal, cyclic and internal) and dienes. Ethyl sorbate undergoes saturation via the monoene intermediate.
Thiscis olefin reacts faster than thetrans isomer. The rate law for the reaction is: Rate α [catalyst] [substrate] [H2]. 相似文献
10.
Nade?da B. Joki? Serena L.M. Goh Bettina Bechlars Fritz E. Kühn 《Journal of organometallic chemistry》2011,696(24):3900-3905
Bridged rhodium(I) bis(NHC) complexes of the formula [bis-(NHC)Rh(I)PF6] (1c-5c) were synthesized and applied as catalysts in the transfer hydrogenation of acetophenone in 2-propanol. The activity of the rhodium(I) complexes largely depends on the nature of the N-substituents and the applied bases. The synthesized compounds were characterized by elemental analysis, 1H and 13C NMR-spectroscopy and mass spectrometry. The structure of complex 2c was exemplary determined by X-ray analysis. 相似文献
11.
炔醇选择加氢制备相应的烯醇在医药、农药、食品添加剂、香精、香料和聚合物单体等众多高端精细化学品合成中是一个非常重要的化工过程.通过一系列复杂的平行和连续的反应,炔醇可加氢生产若干个关键中间体.提高对烯醇的选择性和保持催化剂的效率是工业生产的关键,也是一个巨大的挑战.迄今为止,各种有效的贵金属和非贵金属催化剂得到了广泛的发展,尤其是钯基和镍基多相催化剂取得了显著进展.从经典的Lindlar催化剂和Raney-Ni催化剂到生物基金属催化新材料,本文系统综述了近几十年炔醇选择加氢催化剂的设计,从催化剂本身的金属活性中心、助剂(第二金属、有机配体和稳定剂)的作用、载体的性质(孔结构、酸碱性、金属与载体强相互作用)以及反应条件等因素对催化活性、目标产物的选择性和稳定性的影响进行了系统的综述.借助先进的表征技术、理论计算和实验研究,本文还阐述了炔醇选择加氢反应的机理.研究发现:(1)在所有贵金属催化剂中,Pd基催化剂对炔醇半加氢制烯醇的效率最高,且选择性最好.稳定剂和抑制剂的加入可以提高中间体的选择性,但在一定程度上降低了催化活性.此外,Zn,In和Cu等第二金属的掺杂可以调节金属Pd的几何效应和电子结构,从而调节底物和中间产物的吸附,并抑制过度加氢.与传统的Lindlar型催化剂相比,这种Pd基合金或金属间化合物可广泛应用于炔醇的选择性加氢反应,显著提高烯醇的选择性,且不需要引入有毒添加剂.(2)Ni基材料作为可替代贵金属催化剂,可分别实现炔醇的高选择性加氢制备烯醇或烷醇.然而,与贵金属催化剂相比,其反应条件相对苛刻.炔醇加氢产物分布很大程度上取决于助剂的引入和载体的酸性.此外,碳物种易沉积在Ni表面造成活性位点被覆盖,且在水热环境下Ni颗粒因团聚而失活,因此,用于炔醇选择加氢反应的镍基催化剂稳定性仍有待提高.尽管炔醇选择加氢反应在学术界和工业界都有广泛研究,但对于这些催化体系,特别是催化剂的结构性能关系和反应机理,仍有待进一步明确.(1)原位表征技术和理论计算的发展,将有助于人们理解炔醇选择性加氢的催化过程,并指导研究者根据炔醇加氢的特点设计出具有良好选择性的高效催化剂.(2)烯醇类产品一般应用于医药中间体和高分子单体,对产品纯度要求较高.因此,在不引入有毒添加剂的情况下,设计高效、高选择性催化剂至关重要.(3)水相或醇相中炔醇选择加氢反应对催化剂的水热稳定性有很高的要求.通过锚定和包覆来增强金属与载体的相互作用,抑制金属纳米粒子的聚集和流失是一种有效的手段.此外,在炔醇选择加氢反应中引入耐水载体可以有效提高催化剂的稳定性.(4)短碳链炔醇催化选择加氢反应一直是研究的热点.然而,关于长碳链炔醇的选择加氢反应过程,国内外报道相对较少.基于长碳链炔醇底物分子的空间位阻效应,有必要设计具有特殊孔道结构的选择加氢催化剂.(5)目前,绝大多数炔醇选择加氢过程还处于间歇性操作.随着市场对烯醇的需求不断增加,为了获得高品质的产品,连续化操作将是一个必然趋势. 相似文献
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1,4-丁炔二醇(BYD)部分加氢生成1,4-丁烯二醇(BED),BED进一步加氢生成1,4-丁二醇(BDO).此外,BYD,BED和BDO还会发生脱水反应生成单醇类产物.工业上BYD加氢反应主要用于生产BDO.由于传统的单金属加氢催化剂很难控制反应的加氢程度,因此一般通过提高反应温度和压力使BYD尽量转化为完全加氢产物BDO,以减少部分加氢产物BED对最终产品收率的影响.部分加氢产物BED在精细化工领域也具有重要的应用,所以选择合适的催化剂和反应条件来提高部分加氢产物BED的选择性具有重要的理论意义和潜在应用价值.文献中常采用Zn、微生物等活性抑制剂来降低贵金属催化剂的加氢活性.这些方法往往比较复杂,所使用的添加剂不仅存在毒性和污染产物,还会增加成本.这些方法得到的催化材料虽然可以提高烯醇的选择性,但是仍需要严格控制反应条件才能得到较高收率的部分加氢产物.本文基于MOFs材料独特的结构和性质,探索了MOFs负载型贵金属催化剂在选择加氢反应中的催化性能.首先制备了一种羧酸根保护的Pt纳米溶胶,并以水为溶剂,增加2-甲基咪唑的加入量,实现了室温下ZIF-8晶体的快速生成.在室温合成ZIF-8的过程中加入羧酸根保护的Pt纳米溶胶,通过羧酸根与ZIF-8之间存在的化学吸附力,实现ZIF-8对Pt纳米粒子的包覆.羧酸根不仅可以稳定溶液中的纳米粒子,同时还起着“桥梁”的作用.羧酸根中的C=O基团与ZIF-8中的Zn原子或有机骨架之间弱的配位作用,增加了纳米粒子和ZIF-8之间的亲和力,实现了金属纳米粒子被ZIF-8包围.Pt纳米粒子的引入对ZIF-8的形成也没有影响,得到的Pt@ZIF-8材料拥有良好的晶体结构和高的比表面积.采用XRD、N2吸附和TEM等表征揭示了Pt@ZIF-8的结构特点,并研究了其在水相1,4-丁炔二醇加氢反应中的催化性能.结果显示,该材料不仅具有很高的活性,还具有突出的部分加氢选择性.在5次循环反应中,BYD转化率没有明显变化,说明催化剂在反应过程中活性没有降低.在多次反应之后,反应产物的分布也没有发生明显变化,1,4-丁烯二醇选择性在5次反应中都保持在94%以上.结构表征结果则显示,在4次循环使用之后,催化剂的结构已经遭到破坏;5次循环使用之后,催化剂的XRD谱图中ZIF-8的特征衍射峰完全消失.其余谱峰为ZnO特征衍射峰,说明由于反应温度较高,催化剂在多次反应之后其载体ZIF-8发生了分解.循环寿命实验说明,ZIF-8中Zn离子和含氮有机骨架的抑制作用是导致1,4-丁烯二醇高选择性的重要原因.ZIF-8的分解虽然会使孔道塌陷,但是结构中的Zn和含氮的有机骨架组成依然存在,仍然可以达到抑制烯醇进一步加氢的效果,并且Pt纳米溶胶主要存在于外表面,所以催化剂的活性和选择性没有发生明显变化. 相似文献
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Masoud Nasr-Esfahani Zahra Rafiee Hassan Kashi 《Phosphorus, sulfur, and silicon and the related elements》2016,191(5):790-799
A series of 1,8-dioxooctahydroxanthene derivatives and some crowded bis(1,8-dioxooctahdroxanthene) were selectively synthesized using tungstophosphoric acid nanoparticles supported on polyamic acid (TPA/PAA) as a new catalyst in solvent-free conditions. The high purity products were isolated and catalyst was easily separated in simple work-up and was recycled several times without loss of reactivity under the described reaction conditions. The reaction is characterized by short reaction time, high efficiency and environmentally friendly reaction conditions. 相似文献
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Various aniline derivatives were synthesized by selective reduction of aryl azides in the presence of a dichloro(p-cymene)ruthenium(II) dimer ([Ru(p-cymene)Cl2]2) via hydrolysis of sodium borohydride. The hydrogenation reactions were carried out in aqueous media at room temperature. Most of the reactions were completed within 10 min with quantitative yields. 相似文献
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卤代苯胺是化学工业中重要的中间体,主要用于制造药物、聚合物、染料等含氮化学品,用多相金属催化剂催化卤代硝基芳烃加氢制备卤代苯胺是一种高效,绿色和可持续发展的生产工艺.该过程需要选择性加氢硝基基团,同时避免卤素基团的脱卤副反应发生.然而,化学选择性加氢存在巨大的挑战,难点在于催化剂的精准设计,一方面要求具备对硝基基团合适的加氢能力,另一方面要阻止对卤素基团的脱卤副反应发生.基于此,研制高效多相金属催化剂用于卤代硝基芳烃选择性加氢制备卤代苯胺反应引起了高度关注.近年来,单原子金属催化剂受到越来越多的关注,并在卤代硝基芳烃选择性加氢制备卤代苯胺反应中显现出极大的潜力.本文通过在金属有机骨架材料MIL-53(Al)自组装的过程中将金属Rh原位嫁接其骨架结构中,继而通过限域热解的方法制备了Rh@Al2O3@C单原子催化剂,其在间氯硝基苯(m-CNB)加氢制间氯苯胺(m-CAN)反应中显现了高效催化选择性.球差校正高角度环形暗场模式的透射电镜,CO作为探针分子的红外光谱和X射线光电子能谱等结果发现,Rh是以单原子的形式均匀的分布在Al2O3上并被无定型碳包覆,且Rh化学价态呈正价.而27Al固体核磁共振与密度泛函理论计算的结果则进一步确定Al2O3@C载体中存在的五配位的Al物种(AlV)是锚定Rh单原子的主要位点,AlV的不饱和的配位结构可以有效地稳定Rh单原子,对形成Rh位点的单原子分散至关重要.在间氯硝基苯选择性加氢制间氯苯胺反应中,与等体积浸渍法制备的Rh/C和Rh/γ-Al2O3纳米催化剂相比,Rh@Al2O3@C单原子催化剂表现出优异催化性能:其在313 K,氢气压力为20 bar的温和条件下转换频率(TOF)高达2317 molm-CNB·molRh-1·h-1,优于已报道的多相金属催化剂,是目前的最高值.此外,该催化剂展现出极佳的稳定性能,经过五次循环后,该催化剂对m-CAN的选择性仍旧保持在98%左右.Rh@Al2O3@C单原子催化剂的优异催化性能源自于金属单原子结构的形成对于金属位点电子结构的有效调节,进而调控催化剂加氢性能并实现对加氢脱卤副反应的抑制;与此同时,Rh@Al2O3@C催化剂增进了酸位点的可及性,从而促进了其串联步骤中包含的脱水反应的发生,进而有效提高催化剂的反应活性. 相似文献
17.
卤代苯胺是化学工业中重要的中间体,主要用于制造药物、聚合物、染料等含氮化学品,用多相金属催化剂催化卤代硝基芳烃加氢制备卤代苯胺是一种高效,绿色和可持续发展的生产工艺.该过程需要选择性加氢硝基基团,同时避免卤素基团的脱卤副反应发生.然而,化学选择性加氢存在巨大的挑战,难点在于催化剂的精准设计,一方面要求具备对硝基基团合适的加氢能力,另一方面要阻止对卤素基团的脱卤副反应发生.基于此,研制高效多相金属催化剂用于卤代硝基芳烃选择性加氢制备卤代苯胺反应引起了高度关注.近年来,单原子金属催化剂受到越来越多的关注,并在卤代硝基芳烃选择性加氢制备卤代苯胺反应中显现出极大的潜力.本文通过在金属有机骨架材料MIL-53(Al)自组装的过程中将金属Rh原位嫁接其骨架结构中,继而通过限域热解的方法制备了Rh@Al2O3@C单原子催化剂,其在间氯硝基苯(m-CNB)加氢制间氯苯胺(m-CAN)反应中显现了高效催化选择性.球差校正高角度环形暗场模式的透射电镜,CO作为探针分子的红外光谱和X射线光电子能谱等结果发现,Rh是以单原子的形式均匀的分布在Al2O3上并被无定型碳包覆,且Rh化学价态呈正价.而27Al固体核磁共振与密度泛函理论计算的结果则进一步确定Al2O3@C载体中存在的五配位的Al物种(AlV)是锚定Rh单原子的主要位点,AlV的不饱和的配位结构可以有效地稳定Rh单原子,对形成Rh位点的单原子分散至关重要.在间氯硝基苯选择性加氢制间氯苯胺反应中,与等体积浸渍法制备的Rh/C和Rh/γ-Al2O3纳米催化剂相比,Rh@Al2O3@C单原子催化剂表现出优异催化性能:其在313 K,氢气压力为20 bar的温和条件下转换频率(TOF)高达2317 molm-CNB·molRh-1·h-1,优于已报道的多相金属催化剂,是目前的最高值.此外,该催化剂展现出极佳的稳定性能,经过五次循环后,该催化剂对m-CAN的选择性仍旧保持在98%左右.Rh@Al2O3@C单原子催化剂的优异催化性能源自于金属单原子结构的形成对于金属位点电子结构的有效调节,进而调控催化剂加氢性能并实现对加氢脱卤副反应的抑制;与此同时,Rh@Al2O3@C催化剂增进了酸位点的可及性,从而促进了其串联步骤中包含的脱水反应的发生,进而有效提高催化剂的反应活性. 相似文献
18.
Minkyung Lim Kathlia A. De Castro Seungchan Oh Kangsuk Lee Young‐Wook Chang Hokun Kim Hakjune Rhee 《应用有机金属化学》2011,25(1):1-8
Two types of Pd nanoparticle catalysts were prepared having 2–4 nm particle size using silica gel and porous polymer beads as solid supports. 2‐Pyridinecarboxaldehyde ligand was anchored on commercially available 3‐aminopropyl‐functionalized silica gel followed by Pd metal dispersion. Bead‐shaped cross‐linked poly(4‐vinylpyridine‐co‐styrene) gel was prepared by an emulsifier‐free emulsion polymerization of 4‐vinylpyridine, styrene and divinylbenzene in the presence of ammonium persulfate and subsequently dispersing the Pd metal on the synthesized polymer. These catalysts were characterized by SEM, TEM and ICP techiniques with respect to appearance, size and possible leaching out, respectively. Furthermore, the reactivity of these catalysts was tested on hydrogenation of various α,β‐unsaturated carbonyl compounds using aqueous solvent under a hydrogen balloon (1 atm). The results showed that the Pd dispersed on silica was a more efficient catalyst than Pd dispersed on polymer and the former could be recycled more than 10 times without considerable loss in activity. Copyright © 2010 John Wiley & Sons, Ltd. 相似文献
19.
水热法Fe-Mn催化剂制备及其合成气制低碳烯烃催化活性 《燃料化学学报》2013,41(11):1356-1360
以水热合成法制备了K原位改性的Fe-Mn催化剂,考察了其CO加氢合成低碳烯烃催化活性。采用SEM、TEM、XRD、H2-TPR和FT-IR等手段对催化剂进行了表征。结果表明,制备的催化剂前驱体呈50~70 nm的球形颗粒,表面富含羰基和羟基,物相组成以Fe3O4为主,用于反应后有Fe5C2和MnCO3相生成。与共沉淀法制备催化剂相比,在设定的反应条件下,不同K含量改性的催化剂均具有较高的活性,以原料配比Fe:Mn:C6:K=3:1:5:0.10的催化剂性能最佳,CO转化率达95.02%,总低碳烯烃收率为62.86 g/m3(H2+CO),CH4和CO2选择性分别为13.88%和13.98%。 相似文献
20.
以ZrO(NO3)2·2H2O和Fe(NO3)3·9H2O为原料,采用微波水热法制备了不同Fe2O3/ZrO2物质的量比的Fe-Zr催化剂,并经K改性,研究了其催化CO加氢一步法合成低碳烯烃性能。采用XRD、SEM、TEM和N2吸附-脱附等手段对其物相、形貌和比表面积等进行了表征。结果表明,与共沉淀法相比,微波水热制备的Fe-Zr催化剂颗粒粒径均一,具有相对较小的比表面积和较大的孔径;在CO加氢反应中,Zr助剂的添加显著改善了产物分布,Fe、Zr间适宜的相互作用和相对较大的孔径,有利于抑制CH4的生成,提高烯烃选择性。随着Fe2O3/ZrO2物质的量比的降低,Fe、Zr间相互作用逐渐增强,烯烃选择性和收率先增加后降低。当Fe2O3/ZrO2物质的量比为75:25时,在340 ℃、1.5 MPa、1 000 h-1和H2/CO物质的量比为2的条件下,烯烷比(O/P)达4.86,总烯烃收率达62.57 g/m3。 相似文献