非晶态Co-P-B催化剂在1-辛烯氢甲酰化反应中的应用

通过化学还原法制备了不同Co/P和P/B摩尔比的Co-P-B非晶态催化剂. 采用XRD, ICP-Mass和氮气吸附-脱附等温线对催化剂的性质进行了表征. 在5.0 MPa和120 ℃条件下, 以1-辛烯的氢甲酰化为模型反应, 对Co-P-B催化剂的活性进行了评价, 并与Co-B及Co-P催化剂进行了比较. 结果表明, 非晶态Co-P-B催化剂对1-辛烯氢甲酰化反应具有良好的活性和选择性. 催化剂中P, B和Co的摩尔比、结构及比表面积等性质影响催化剂的活性和选择性, 添加适量的P有助于提高转化率和选择性. 在Co-P-B(Co摩尔分数为85.4%, P摩尔分数为3.3%)催化剂上, 1-辛烯的转化率为97.2%, C9-醛的选择性达到99.5%.     

Co-Ni-B/SBA-15催化1-辛烯氢甲酰化活性研究

超声辅助浸渍法制备了SBA-15分子筛负载三组分非晶态Co-Ni-B,研究了其对1-辛烯氢甲酰化制壬醛反应的催化性能。SBA-15负载纳米非晶态Co-Ni-B,增加了Co-Ni-B的分散;且非晶态Co-Ni-B转化为晶体的温度升高约280℃,耐热稳定性增强。Co-Ni-B/SBA-15催化剂,其中,Co=17.22%,n(Ni)/n(Co)=0.157,n(B)/n(Co+Ni)=0.434,用于120℃、5 MPa条件下氢甲酰化反应,间歇反应4 h,1-辛烯完全转化,壬醛选择性91.24%;相比Co-Ni-B,副产物减少一倍。催化剂重复使用五次,活性稳定。     

Co-B/γ-Al2O3非晶态催化剂的制备及其催化乳酸乙酯液相加氢性能

采用浸渍-还原法制备了负载型Co-B/γ-Al₂O₃非晶态合金催化剂, 并将其应用于乳酸乙酯液相加氢制备1,2-丙二醇(1,2-PDO)反应中, 研究了其催化加氢性能. 采用电感耦合等离子体(ICP)发射光谱仪、X射线衍射(XRD)仪、透射电子显微镜(TEM)、差示扫描量热(DSC)、X射线光电子能谱(XPS)等手段对催化剂的性能进行了表征, 考察了制备条件对催化剂性能的影响. 结果表明, 新鲜的Co-B/γ-Al₂O₃催化剂具有非晶态结构, Co-B均匀地分散在载体γ-Al₂O₃上. 随着Co负载量的增加, 催化剂的热稳定性提高, 催化剂表面Co/B原子比增加. 当金属Co理论负载量为30%(质量分数, w)时, Co-B/γ-Al₂O₃催化剂表现出最高的加氢催化性能, 在160 ℃, 氢气压力为6.0 MPa条件下反应9 h, 乳酸乙酯的转化频率(TOF)为1.41 h^-1, 转化率达到93.63%, 1,2-丙二醇的选择性达到96.10%. 催化剂的加氢性能取决于其分散均匀的Co-B纳米粒子、较高的表面Co/B原子比及Co和B之间的电子转移效应.     

羟基硅酸镁纳米管负载非晶态Co-B催化环己烯氢甲酰化

采用浸渍化学还原法制备羟基硅酸镁纳米管(MgSNTs)负载非晶态钴硼催化剂(Co-B/MgSNTs)。应用X衍射技术(XRD),透射电子显微镜(TEM),X射线光电子能谱仪(XPS),元素分析(ICP)和比表面积(BET)分析等手段对催化剂进行了表征。研究了催化剂对于环己烯氢甲酰化反应的催化活性及循环使用。研究结果表明,具有高比表面积(250 m2·g-1)、较强耐受性和稳定性的MgSNTs可以有效的分散金属粒子,防止活性中心团聚和流失,催化环己烯的转化率为75.8%,醛的选择性为65.8%,实验重复3次以上,催化剂依然保持良好的催化活性和选择性。     

Re组分及ZrO_2载体制备方法对Ru-Re/ZrO_2催化丙三醇氢解反应的影响

分别采用沉淀法、水热合成法和不同气氛下焙烧的方式制备了ZrO2载体,采用浸渍法负载Ru及Ru-Re组分制备了Ru/ZrO2和Ru-Re/ZrO2催化剂.利用氮气吸附-脱附、X射线衍射、透射电镜及程序升温还原等方法对样品的比表面积、孔容、平均孔径、晶体结构、形貌及还原特性等进行了表征.考察了Re组分及ZrO2载体制备方法对催化剂在丙三醇氢解制丙二醇反应中的催化性能的影响.结果表明,不同方法制备的ZrO2载体对负载型Ru催化剂的催化性能有一定影响,其中以沉淀法在空气中焙烧制得ZrO2负载活性组分后得到的催化剂的活件相对较低(转化率18.7%),而以沉淀法在氮气中焙烧以及水热合成法制备的ZrO2负载活性组分后得到的催化剂的活性相对较高(转化率25.8%).Re组分的引入对Ru/ZrO2系列催化剂的催化性能有明显的促进作用.     

Co-B/SBA-15非晶态催化剂应用于肉桂醛选择性加氢的研究

以介孔材料SBA-15作为载体,采用浸渍法制备Co-B/SBA-15非晶态催化剂,该样品仍然保持SBA-15特有的有序规整孔道结构,Co-B非晶态合金颗粒均匀分布在孔道内壁,采用普通SiO2载体制备的Co-B/ SiO2,Co-B颗粒主要分布在外表面.在肉桂醛选择性加氢制肉桂醇中,Co-B/SBA-15的催化活性和对肉桂醇的最佳得率显著高于Co-B/SiO2,主要归因于活性位的高分散,规整的孔道结构,以及独特的活性位团簇结构和电子态.     

高性能麦芽糖加氢Ru-B/SBA-15非晶态合金催化剂的制备

以介孔氧化硅(SBA-15)为载体, 采用超声辅助(NH₄)₂RuCl₆浸渍和BH₄^-还原法制备了负载型Ru-B催化剂, 并通过X射线衍射、X光电子能谱、差示扫描量热法和透射电子显微等技术表征了该催化剂.结果表明, 所制得的Ru-B-X/SBA-15催化剂具有非晶态合金结构, 且Ru-B颗粒高分散在SBA-15的孔道中.在液相麦芽糖加氢反应中, 与采用RuCl₃为金属源制得的Ru-B-C/SBA-15相比, Ru-B-X/SBA-15催化剂具有更高的活性, 是非负载型Ru-B-C催化剂的7倍以上, 且能重复套用11次而未发生显著的失活.     

硅胶键合膦的制备及其对铑络合物催化1-辛烯氢甲酰化反应的影响

以硅胶为载体, 采用键合接枝法将2-(二苯膦基)乙基三乙氧基硅烷(DPPES)共价键合于硅胶表面, 制备了性能优良的硅胶键合型膦配体(以SiO₂(PPh₂)表示). 以SiO₂(PPh₂)为配体, Rh(acac)(CO)₂ (acac:乙酰丙酮)为催化前体, 负载铑膦络合物催化剂(SiO₂(PPh₂)/Rh)在1-辛烯氢甲酰化反应中原位生成. 对生成的负载型催化剂和硅胶键合型膦配体进行了傅里叶变换红外(FTIR)光谱表征, 考察了膦/铑摩尔浓度比([P]/[Rh])、温度等因素对铑催化的长链1-辛烯氢甲酰化反应的影响. 结果表明, 膦/铑摩尔浓度比的增加能显著提高反应的成醛选择性, 降低铑的流失. 在[P]/[Rh]=12、363 K、2.0 MPa、1.5 h 的温和反应条件下, 1-辛烯转化率和成醛选择性分别可达98.4%和95.3%, 其催化活性与DPPES或三苯基膦(TPP)作配体时的均相铑催化相近. 催化剂循环4 次后, 反应活性无明显下降, 1-辛烯转化率均在97.0%左右, 经电感耦合等离子体原子发射光谱(ICP-AES)检测,有机相中铑流失低于0.1%.     

Ni/CNTs催化剂的制备及其对甲醇气相羰基化反应的催化性能

 将采用浸渍法制备的碳纳米管(CNTs)负载的镍催化剂用于甲醇直接气相羰基化反应,考察了催化剂的预处理条件对催化剂活性的影响,并采用透射电镜、 X射线衍射和红外光谱对其进行了表征. 结果表明,采用硝酸氧化和碳酸钠活化预处理CNTs制备的Ni/CNTs催化剂有很好的分散度,用三步干燥法将催化剂前体在氮气氛围下300 ℃热处理 2 h 后在氢气氛围下500 ℃还原 3 h 制得的催化剂活性较高.     

铑-三苯基膦配合物功能化的聚合物@介孔氧化硅复合材料在1-辛烯氢甲酰化反应中的应用(英文)

通过在介孔氧化硅材料中原位聚合的方法制备了三苯基膦功能化的有机聚合物@介孔氧化硅复合材料PPh3polymer@FDU-12.采用X射线衍射、氮气吸附脱附、透射电镜和热重等手段对其结构和组成进行了表征.该复合材料与金属前驱体Rh(acac)(CO)2配位后得到的固体催化剂,在长链烯烃1-辛烯的氢甲酰化反应中,醛选择性可达92%–96%,并表现出高于聚合物的活性(99%转化率).这主要归因于介孔氧化硅材料的高比表面积和有序的孔结构更有利于反应物和催化活性中心的接触.研究发现,调变复合材料中聚合物的含量或使用不同孔道结构的氧化硅载体(SBA-15,MCM-41和FDU-12)都会影响固体催化剂的反应活性和选择性.该方法得到的多相催化剂具有较好的循环使用性能,在循环使用15次后仍能保持较好的反应活性,但醛选择性有所降低.     

Silicotungstic acid-derived WO3 composited with ZrO2 supported on SBA-15 as a highly efficient mesoporous solid acid catalyst for the alkenylation of p-xylene with phenylacetylene

Highly dispersed silicotungstic acid-derived WO₃ composited with ZrO₂ supported on SBA-15（WZ/SBA-15） as an ordered mesoporous solid acid catalyst was prepared via a facile incipient wetness impregnation（IWI） method that active ingredients,ZrO₂ and WO₃,were impregnated into the channels of SBA-15 simultaneously with a subsequent calcination process.The relationship between catalyst nature and performance was explored by high resolution transmission elec...     

Readily accessible mesoporous silica nanoparticles supported chiral urea-amine bifunctional catalysts for enantioselective reactions

The main objective of this study is to develop readily accessible and recyclable solid catalysts for enantioselective reactions. To achieve this, magnetic MCM-41 and non-magnetic SBA-15 mesoporous supports were prepared, then mesoporous silica supported chiral urea-amine bifunctional catalysts were synthesized by grafting of chiral urea-amine ligand onto SBA-15 and magnetic MCM-41. The magnetic and non-magnetic supports and so-prepared solid catalysts were characterized by using different methods such as N₂ sorption measurements, Fourier transform infrared spectroscopy (FT-IR), field emission scanning electron microscope-energy dispersive X-ray analysis (FESEM-EDX), X-ray diffraction (XRD), and thermogravimetric analysis (TGA). Results showed that (1R, 2R) or (1S, 2S)-1,2-diphenylethane-1,2-diamine was successively immobilized onto magnetic MCM-41 and SBA-15 pores. The heterogeneous chiral solid catalysts and their homogenous counterparts exhibited high activities both enantioselective transfer hydrogenation reaction (up to 99% conversion and 65% ee) and enantioselective Michael reaction (up to 98% conversion and 26% ee). Moreover, the SBA-15 supported solid catalysts were separated from the reaction mixture by simple filtration, whereas the magnetic MCM-41 supported solid catalysts were separated by simple magnetic decantation and reused in three consecutive catalytic experiments.     

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。     

Au/ZrO2催化CO氧化反应中ZrO2纳米粒子的尺寸效应

从同一ZrO(OH)₂出发制备了三种不同尺寸的ZrO₂纳米颗粒(ZrO₂-CP: 40～200 nm, ZrO₂-AN: 18～25 nm, ZrO₂-AD: 10～15 nm), 采用沉积-沉淀方法制备了相应的Au/ZrO₂催化剂. 用XRD, XRF, TEM和低温N₂吸附对ZrO₂和Au/ZrO₂进行了表征. XRD和TEM分析表明Au/ZrO₂样品中Au粒子的平均尺寸为4～5 nm, 而ZrO₂的晶相和颗粒大小没有因为“负载”Au粒子而发生变化. CO催化氧化反应的结果表明, Au/ZrO₂催化活性随着ZrO₂纳米粒子尺寸的减小活性明显增加. TEM/HRTEM结果表明, Au/ZrO₂催化剂中Au粒子与ZrO₂颗粒接触界面随ZrO₂颗粒尺寸的减小而明显增加, 这很可能是含有更小尺寸ZrO₂纳米粒子的Au/ZrO₂催化剂具有更高催化活性的重要原因.     

Synthesis and properties of MoO3/ZrO2 solid acid catalysts for the preparation of polydimethylsiloxane (PDMS) via octamethylcyclotetrasiloxane (D4) ring-opening

A series of MoO₃/ZrO₂ catalysts were prepared by impregnation method, and characterized by X-ray diffraction (XRD), specific surface area (BET) and temperature-programmed desorption of NH₃ (NH₃-TPD). The polydimethylsiloxane (PDMS) was prepared by ring-opening polymerization from D₄ and MM with MoO₃/ZrO₂ catalysts. The effects of MoO₃/ZrO₂ catalysts preparation conditions on PDMS molecular weight and reaction conversion rate were discussed. Moreover, the effects of reaction conditions on the ring-opening polymerization were also studied. During the preparation of PDMS, the molecular weight of the product can be controlled by adjusting the mass ratio of D₄:MM. The MoO₃/ZrO₂ catalyst was compared with other catalysts during the ring-opening process, and the repeated times of MoO₃/ZrO₂ catalysts were also studied. The results showed that MoO₃/ZrO₂ catalyst had more excellent catalytic performance, for ring-opening process, and when the repeated times was more than 5, the catalytic activity decreased significantly. In addition, the kinetics of D₄ ring-opening polymerization with the MoO₃/ZrO₂ catalyst was investigated.     

Monolith Manganese-Based Catalyst Supported on ZrO2-TiO2 for NH3-SCR Reaction at Low Temperature

Monolith catalysts were prepared using TiO₂ and ZrO₂-TiO₂ as supports with MnO₂ as active component and Fe₂O₃ as promoter. The catalytic activities at low temperature and stability at high temperature for selective catalytic reduction of NO_x with NH₃ (NH₃-SCR) in the presence of excessive O₂ were studied after the catalysts calcined at different temperatures. The catalysts were characterized by X-ray diffraction (XRD), specific surface area measurements (BET), oxygen storage capacity (OSC), and temperature programmed reduction (H₂-TPR). The results indicated that the catalyst supported on ZrO₂-TiO₂ had excellent stability at high temperature, and possessed high specific surface area and oxygen storage capacity, and had strong redox property. The results of the catalytic activities indicated that the monolith manganese-based catalyst using ZrO₂-TiO₂ as support had evidently improved the activity of NH₃-SCR reduction reaction at low temperature, and it showed great potential for practical application.     

An Effect of a Support Nature and Active Phase Morphology on Catalytic Properties of Ni-Containing Catalysts in Hydrogenation of Biphenyl

Ni/Sup catalysts were prepared, where SBA-15, γ-Al₂O₃, SiO₂ were used as supports (Sup). The synthesized catalysts were investigated by the methods of low-temperature nitrogen adsorption, temperatureprogrammed reduction (TPR), and high-resolution transmission electron microscopy. The catalytic properties of the prepared catalysts were tested in liquid phase hydrogenation of biphenyl under conditions of a flow installation at temperatures of 60–100°C, pressure of 4 MPa, volumetric feed rate of 4–10 h^–1 and H₂: feed ratio of 1500 nM.. A 1 wt % solution of biphenyl in heptane,, as a model mixture, was used. It has been established that the activity of nickel hydrogenation catalysts depends on the nickel content and the type of support. The activity of supported nickel catalysts decreases in the series Ni-12/SBA-15 > Ni-12/SiO₂ >> Ni-12/Al₂O₃. The kinetic characteristics of the biphenyl hydrogenation reaction were determined: the rate constants and activation energy for the hydrogenation of the first and second aromatic rings of the substrate molecule.     

柠檬酸络合法制备Ni2P/SBA-15催化剂及加氢脱硫性能

以介孔分子筛SBA-15为载体,Ni组分采用柠檬酸(CA)配合法,制备了Ni2P质量含量为25%～45%、P/Ni为0.8、CA/Ni为0～1.5的一系列CA-Ni2P/SBA-15催化剂.利用XRD和N2吸脱附表征了催化剂结构,以二苯并噻吩(DBT)为模型硫合物,对催化剂加氢脱硫(HDS)性能进行了评价,考察了CA/Ni比对催化剂结构和反应性能的影响.结果表明,催化剂仍然保持有介孔结构,催化活性物相为Ni2P.反应温度为300～340℃时,Ni2P含量和CA/Ni比都对催化剂的性能有一定的影响,反应温度在360℃以上时,Ni2P含量和CA/Ni比对催化剂性能的影响不明显.Ni2P含量为35%、CA/Ni比为1.0的催化剂具有最好的HDS活性,DBT的转化率可达98%.     

Zr(SO4)2·4H2O/SBA-15固体酸催化剂的制备及其催化性能

以介孔分子筛SBA-15为载体,采用浸渍法制备了系列四水硫酸锆(ZS)负载型催化剂ZS/SBA-15,用FT-IR、EDS、XRD、N₂吸附-脱附、Hammett指示剂等对催化剂的组成、结构和酸强度进行了表征。 结果表明,硫酸锆负载后,催化剂仍基本保持六方有序的孔阵列和尺寸不变的介孔孔道;在负载量＜40%时,硫酸锆均能在载体上高度分散。 该系列催化剂具有中等强度的酸中心,对乙二醇单乙醚与乙酸、正丁醇与柠檬酸的酯化反应有很高的催化活性,且对目标酯产物的选择性为100%。 在最佳的负载量和反应条件下,乙二醇单乙醚和柠檬酸的转化率约高达98%,催化剂重复使用多次仍可保持相当的活性。