Hydrogenation of Cinnamaldehyde to Cinnamyl Alcohol over An Ultrafine Co—B Amorphous Catalyst

A novel Co-B amorphous alloy catalyst in the form of ultrafine particles was prepared by chemical reduction of CoCl2 with aqueous NaBH4, which exhibited excellent activity and selectivity during the hydrogenation of cinnamaldehyde to cinnamyl alcohol in liquid phase. The optimum yield of cinnamyl alcohol was 87.6%, much better than the yield of using Raney Ni, Raney Co and other Co-based catalysts.     

稀土Th修饰的Co-B非晶态合金催化肉桂醛选择性加氢制肉桂醇

采用化学还原法制备了Th修饰的Co-B非晶态合金(Co-Th-B)并应用于液相肉桂醛选择性加氢制肉桂醇,Co-Th-B的活性和选择性显著高于非修饰Co-B,其中最佳,Th修饰量为10%,此时肉桂醇得率可达81.4%,且能够多次重复使用.结合系统表征,初步讨论了催化剂的构效关系以及Th对催化性能的促进作用.     

超声波辅助Ru-B非晶态合金常压催化肉桂醛加氢制备肉桂醇

采用KBH₄化学还原法制备了超细Ru-B非晶态合金催化剂。Ru-B催化剂在肉桂醇液相常压加氢中显示出较高的肉桂醇选择性。在加氢过程中使用超声辐射能大大提高反应速率而肉桂醇的选择性几乎保持不变。加氢速率随着超声频率或超声时间的增加而增加。通过XRD、XPS、TEM、BET和ICP等各种表征手段，简要研究了超声辐射对Ru-B催化剂结构和电子特征的影响。同时，还讨论了超声对肉桂醛选择性加氢制肉桂醇催化性能的促进作用。     

锌对非晶态Co-B合金的改性及催化肉桂醛加氢为肉桂醇的研究

采用KBH4还原法制备了非晶态Co-B和Co-Zn-B催化剂,以肉桂醛选择加氢制肉桂醇为探针反应,研究了Zn对Co-B非晶态催化剂的修饰改性作用,并采用XRD、DSC、XPS、和H2-TPD对催化剂进行了表征.研究表明,少量的Zn没有改变Co-B催化剂的非晶结构,但提高了催化剂主体的热稳定性,其中1%的Zn可使Co-B非晶态催化剂主体结晶放热峰提高12K,并在665K出现新的H2脱附峰,说明催化剂因掺入锌形成了新的氢吸附中心,锌在催化剂中以金属态和氧化态两种形式存在.催化剂的整体均衡而局部电子分布不均衡的缺陷势结构增强了对肉桂醛分子C=O双键O原子的侧链偶合吸附与金属氧化物的金属离子对羰基的极化作用协同活化了肉桂醛的C=O双键,提高了催化剂对C=O双键的加氢选择性.加氢反应工艺条件及催化剂寿命研究表明,适宜的反应温度为413K,氢压为2.5MPa,反应时间为3.0h,肉桂醇的最高产率可达84.0%,并具有较好的催化稳定性.     

Co-B非晶态合金催化肉桂醛液相选择性加氢制备肉桂醇的研究

本文首次报道Co-B非晶态合金催化剂应用于肉桂醛（CMA）液相选择性加氢制备肉桂醇（CMO），考察了催化活性、CMO选择性及其得率以及不同湿度预处理的影响。实验发现，Co-B非晶态合金催化剂的催化活性和对CMO的选择性显著优于Raney Co等催化剂，加热晶化后导致其催化活性显著下降而对CMO的选择性略有升高，根据XRD，SEM，XPS，BET等一系列的表征，初步讲座了Co-B催化剂催化性能与催化剂结构的关系。     

Ni-Co-B非晶态合金催化肉桂醛常压加氢制3-苯丙醛的研究

采用化学还原法制备了一系列Ni-Co-B非晶态合金催化剂, 通过调变金属盐混和液中Ni^2＋/Co^2＋的比例, 可制得不同Co含量的Ni-Co-B非晶态合金. 用ICP, BET, XRD, TEM, SAED, DSC, XPS和H₂-TPD对其组成、结构、粒子大小、表面形貌和表面电子态进行了系列表征, 并以肉桂醛常压加氢制苯丙醛作为探针反应, 考察了所制备的Ni-Co-B非晶态合金的催化性能. 结果表明, Ni-Co-B非晶态合金中Ni为活性中心, Co的引入可显著增加其催化活性. 由于催化测试中金属总量固定为1.0 g, 因此增加Ni-Co-B中Co的含量具有正负两方面的效应. 一方面, 由于Ni活性位数目的减少加氢活性降低; 另一方面, Co对Ni活性中心具有协同作用, 有利于增加合金的无序度、金属-类金属间相互作用、表面Ni含量和电子相互作用, 从而提高催化活性. 最佳Co与(Ni＋Co)摩尔比含量的范围为0.2～0.5.     

Hydrogenation of Furfural to Furfuryl Alcohol over Co-B Amorphous Catalysts Prepared by Chemical Reduction in Variable Media

Five Co-B amorphous alloy catalysts were prepared by chemical reduction in different media, including pure water and pure ethanol as well as the mixture of ethanol and water with variable ethanol content, Their catalytic properties were evaluated using liquid phase furfural hydrogenation to furfuryl alcohol as the probe reaction. It was found that the reaction media had no significant influence on either the amorphous structure of the Co-B catalyst or the electronic interaction between metallic Co and alloying B. This could successfully account for the fact that all the as-prepared Co-B catalysts exhibited almost the same selectivity to furfuryl alcohol and the same activity per surface area （ Rs ）, which could be considered as the intrinsic activity, since the nature of active sites remained unchanged. However, the activity per gram of Co （ R^mH ） of the as-prepared Co-B catalysts increased rapidly when the ethanol content in the water-ethanol mixture used as the reaction medium for catalyst preparation increased. This could be attributed to the rapid increase in the surface area possibly owing to the presence of more oxidized boron species which could serve as a support for dispersing the Co-B amorphous alloy particles.     

Fe-Co Alloyed Nanoparticles Catalyzing Efficient Hydrogenation of Cinnamaldehyde to Cinnamyl Alcohol in Water

Selective hydrogenation of C=O against the conjugated C=C in cinnamaldehyde (CAL) is indispensable to produce cinnamyl alcohol (COL). Nonetheless, it is challenged by the low selectivity and the need to use organic solvents. Herein, for the first time, we report the use of Fe-Co alloy nanoparticles (NPs) on N-doped carbon support as a selective hydrogenation catalyst to efficiently convert CAL to COL. The resultant catalyst with the optimized Fe/Co ratio of 0.5 can achieve an exceptional COL selectivity of 91.7 % at a CAL conversion of 95.1 % in pure water medium under mild reaction conditions, ranking it the best performed catalyst reported to date. The experimental results confirm that the COL selectivity and CAL conversion efficiency are, respectively promoted by the presence of Fe and Co, while the synergism of the alloyed Fe-Co is the key to concurrently achieve high COL selectivity and CAL conversion efficiency.     

贵金属对钴基催化剂上肉桂醛选择加氢反应的影响

 研究了贵金属改性的Co／γ－Al2O3催化剂上的肉桂醛选择加氢反应．结果表明，通过Pt，Pd和Ru贵金属改性，提高了催化剂的活性，但只有Pt改性的催化剂具有较高的选择性．w（Pt）＜0．5％时，催化剂的活性随着Pt含量的增加呈直线升高，当w（Pt）＝0．5％时，催化剂活性可提高近5倍，但催化剂的选择性变化很小．XRD结果表明，催化剂经还原后，γ－Al2O3上的钴主要为α－Co0．TPR结果表明，Pt的加入提高了Co3O4的还原性能，且Pt含量越高，Co3O4的还原温度越低．XPS结果表明，Pt改性的催化剂样品，其Co3O4大部分被还原为Co0．由于Pt与Co具有协同效应，故Pt改性的Co／γ－Al2O3催化剂既具有较高的活性，又具有很高的选择性．     

La2O3助剂对Au/TiO2催化肉桂醛选择性加氢性能的影响

以溶胶-凝胶法制得的TiO2和La2O3-TiO2为载体,采用沉积-沉淀法制备了一系列Au催化剂,用于肉桂醛选择性加氢反应,并运用N2吸附-脱附、X射线衍射、高分辨率透射电镜、程序升温还原和X射线光电子能谱等方法对催化剂进行了表征,系统考察了La2O3含量对Au/TiO2催化剂物化性质和催化性能的影响.结果表明,适量L...     

Active and Recyclable Gold Metal Nanoparticles Catalyst Supported on Nitrogen-Doped Mesoporous Carbon for Chemoselective Hydrogenation of Cinnamaldehyde to Cinnamyl Alcohol

Several supported gold metal catalysts with different Au nanoparticles sizes were prepared and evaluated for the chemoselective hydrogenation of cinnamaldehyde (CA) to cinnamyl alcohol (CAL). To investigate the structure-activity relationship, stability of catalyst, heterogeneity and recyclability, the structural characteristics of materials and Au catalysts (fresh and spent catalysts) were studied by employing variety of physico-chemical techniques. The interrelationship among Au nanoparticles size (nm) with turnover frequency (h⁻¹) of Au catalysts has also been explored. Among the various Au catalysts tested, nitrogen-doped mesoporous carbon (NMC) supported Au catalyst having homogeneously dispersed (78.8%) Au nanoparticles (1.6 nm) synthesized by sol-immobilization method (Au-NMC-SI) demonstrated improved catalytic activity affording 78% CAL selectivity and 94.2% CA conversion without using any promoter. Moreover, Au-NMC-SI catalyst exhibited good recyclability and stability. The catalyst synthesis approach described in this investigation opens up a novel strategy for the design of highly efficient metal nano-catalysts supported on NMC materials.     

超细Ni-B非晶态合金催化糠醛液相加氢制备糠醇

报道了超细Ni－B非晶态合金应用于糠醛液相选择加氢制备糠醇，研究发现，Ni－B非晶态合金催化剂对糠醇的选择性接近100％，而且其催化活性显著高于RaneyNi和超细Ni催化剂，进一步的研究表明，对于Ni-B非晶态合金，其在423K以下进行热处理时，未出现明显的晶化；但在高温下，逐渐发生晶化，并导致催化活性和选择性显著下降，在XRD、SEM、XPS和氢吸附等一系列表征的基础上，初步探讨了催化活性与催化剂结构的关系，并考察了高温晶化对催化性能的影响。     

Effects of Neodymium on the Properties of Ni‐B/CNTs Amorphous Alloy Catalyst

Neodymium is used as a promoter of Ni‐B/CNTs amorphous alloy catalyst to modify its catalytic properties. Ni‐B/CNTs and Ni‐Nd(5wt%)‐B/CNTs catalysts were prepared by the impregnation chemical reduction method. Their catalytic performances were examined in acetylene selective hydrogenation, which is a crucial step in industrial polymerization processes, with the aim of the complete elimination of alkynes from alkene feedstocks. Experiments showed that the latter exhibited higher acetylene hydrogenation activity but lower ethylene selectivity. Catalysts were characterized by ICP, CO‐chemisorption, XPS, XRD and H₂‐TPD techniques. On the basis of characterizations, the modification of Nd on Ni‐B/CNTs catalyst was related to its geometric and electronic effects.     

非晶态合金Ru基催化剂在苯选择加氢中的应用进展

化学还原法制备的非晶态合金Ru基催化剂融合了纳米粒子和非晶态合金的结构特征,在苯选择加氢反应中表现出高活性和高环己烯选择性;尤其是负载型非晶态合金Ru基催化剂,具有贵金属利用率高和易于工业化等优点,有着明显的竞争优势,本文综述了苯选择加氢的热力学和动力学特征,非晶态合金催化剂结构和组成及其对催化性能的影响;总结了催化工...     

Preparation,Characterization and Catalytic Performance of Carbon Nanotubes Promoted Ni‐B Amorphous Alloy

Ni‐B and Ni‐B/CNTs amorphous alloy catalysts were prepared by chemical reduction and impregnation‐chemical reduction methods, respectively, and characterized by TEM, ICP, XPS, XRD, BET and CO chemisorption techniques. Their catalytic activities were evaluated in acetylene selective hydrogenation reaction. Based on characterizations, the effects of carbon nanotubes on Ni‐B amorphous alloy were attributed to both its structure effect, dispersing Ni‐B particles, leading to bigger surface area of active nickel and enhancing the thermal stability, and the electronic effect, resulting in electron‐rich nickel centers. Therefore, the superior thermal stability and acetylene selective hydrogenation activities of Ni‐B/CNTs to Ni‐B amorphous catalyst were obtained in the present study.     

Ru-B/SiO2非晶态催化剂应用于液相葡萄糖加氢制山梨醇

 采用浸渍法结合KBH4还原法制备了Ru-B/SiO2非晶态催化剂(3.14%Ru),并将其用于液相葡萄糖加氢制山梨醇反应. 结果表明,该催化剂具有良好的热稳定性,且其催化活性远高于Raney Ni和Ni-B/SiO2非晶态催化剂,山梨醇的选择性接近于100%,显示出良好的工业化应用前景. 通过与晶态Ru-B/SiO2及Ru/SiO2的催化活性进行比较,并结合ICP,XRD,DSC,SEM,XPS及氢吸附等表征结果,初步讨论了非晶态合金结构和表面电子态对催化剂活性的促进作用.     

超细Pd—B／SiO2非晶态合金加氢反应的催化活性

采用浸渍法并通过ＫＢＨ４还原制备超细Ｐｄ－Ｂ／ＳｉＯ２非晶态合金催化剂,以硝基苯加氢生成苯胺为目标反应,考察了上述催化剂的活性和选择性及热稳定性,并与晶态Ｐｄ－Ｂ／ＳｉＯ２和Ｐｄ／ＳｉＯ２催化剂及非负载型Ｐｄ－Ｂ非晶态合金催化剂进行了比较。     

载体对负载型Ni-B催化剂催化2-乙基蒽醌加氢制H2O2反应性能的影响

采用还原剂浸渍法将Ni-B非晶态合金负载到SiO2,γ-Al2O3和活性炭(AC)上,以2-乙基蒽醌选择加氧制H2O2为探针反应,系统研究了载体对Ni-B非晶态合金催化剂结构、热稳定性和催化性能的影响.结果表明,将Ni-B负载到载体上后,其晶化温度显著提高,各催化剂热稳定性依次为Ni-B/AC＞Ni-B/SiO2＞Ni...     

Effect of the Porous Structure of the Support and Modifying Cation on the Catalytic Properties of the Co/SiO2·M n + System in the Hydrogenation of Carbon Monoxide to Give Hydrocarbons

Data are given on the activity and selectivity of formation of C₅₊ hydrocarbons in the Fischer–Tropsch synthesis depending on mean diameter of support pores (1.6-907 nm). The formation of C₅₊ hydrocarbons was found to be a function of the mean support pore diameter. The optimal value was 8-12.6 nm. The output and selectivity of formation of the hydrocarbons are also functions of the introduced cation.