负载型非晶态Co-B催化剂在1-辛烯氢甲酰化中的应用

以醇凝胶-氮气热处理方法制备的ZrO2、碳纳米管(CNTs)及介孔分子筛SBA-15作为载体,采用化学还原法制备了负载型非晶态Co-B催化剂,利用粉末X射线衍射(XRD)、氮气吸附等温线、透射电子显微镜(TEM)、电感耦合等离子体-原子发射光谱(ICP-AES)以及X射线光电子能谱(XPS)等对催化剂进行了表征.以1-辛烯的氢甲酰化为目标反应,考察了负载型非晶态Co-B催化剂在氢甲酰化反应中的性能及循环使用效果.表征结果显示,以NaBH4为还原剂制备的负载型Co-B催化剂上的Co-B为非晶态,负载Co-B组分对载体的晶相结构没有影响.反应结果表明,在1-辛烯的氢甲酰化反应中,负载型非晶态Co-B催化剂都显示较高的初始活性.随着循环次数的增加,三种催化剂的活性下降,但下降幅度有所不同,Co-B/CNTs和Co-B/SBA-15的循环使用稳定性高于Co-B/ZrO2.     

Catalytic steam reforming of biomass over Ni-based catalysts: Conversion from poplar leaves to hydrogen-rich syngas

A series of Ni/SBA-15 catalysts with Ni contents from 5 wt%–20 wt%and CaO-12.5%Ni/SBA-15 catalysts with CaO contents from 1.4 wt%–9.8 wt%have been prepared.The structure of the catalysts was characterized using X-ray diffraction(XRD),N2 adsorption-desorption,transmission electron microscopy(TEM)and X-ray photoelectron spectroscopy(XPS).The performance of catalytic steam reforming of the poplar leaves to the hydrogen-rich syngas was tested in a fixed-bed reactor.The results indicate that the 7.0wt%CaO-12.5wt%Ni/SBA-15 catalyst exhibits the best performance for the catalytic steam reforming of poplar leaves to hydrogen-rich syngas.The ratio of H2:CO can reach ca 5:1 in the hydrogen-rich syngas.The yield of H2 can reach 273.30 mL/g(poplar leaves).In the CaO-Ni/SBA-15 catalyst,Ni active component mainly fills the role of catalytic steam reforming of the poplar leaves,and CaO active component mainly plays the role as water-gas shift and CO2 sorbent.     

Activation energy of the reaction between hexacyanoferrate (Ш) and thiosulfate ions catalyzed by platinum nanoparticles confined in nanometer space

Pt nanoparticles (NPs) have been successfully encapsulated in SBA-15 mesoporous silica support. The silica was firstly functionalized by polyaminoamine (PAMAM) dendrimers with various generations and provided different nanometer space for Pt NPs. The growth of Pt NPs is restricted by the double confinement effect of PAMAM dendrimers and SBA-15 mesopores. The Pt NPs can be precisely controlled to localize inter- or intradendrimeric within SBA-15 tunnels. The different pore structures of Gn-PAMAM-SBA-15 (Gn-PS15) support have great influence on the catalytic performance of the encapsulated Pt NPs. The blocking structure of higher generation Gn-PS15 support debased the catalytic performance and increased the activation energy of reaction between Fe(CN)(6)(3-) and S(2)O(3)(2-) in a certain degree.     

PtZn-Sn/SBA-15合成、表征及对丙烷催化脱氢性能

以SBA-15为载体,利用浸渍法制备了单、双和三金属Pt催化剂,并对催化剂进行了N2物理吸附(BET)、程序升温还原(H2-TPR)、H2-化学吸附、透射电子显微镜(TEM)和O2-脉冲等技术表征,研究了它们对丙烷催化脱氢(CDH)制丙烯反应的催化性能。研究结果表明,Pt在三金属催化剂中的分散性能最好,并且部分负载组分可以进入SBA-15的孔道,Pt的分散度达到29%,Pt粒子尺寸为3 nm左右。三金属催化剂表现出优越的脱氢性能,这主要归结于载体的弱酸性、活性组分和助剂、载体之间的相互作用及Zn对Pt的电子调控作用。这些因素使催化剂的积炭量较低,因而具有较高的脱氢稳定性和极高的选择性。     

Mo-Ni2P/SBA-15催化剂的制备、表征及加氢脱硫催化性能

以介孔分子筛SBA-15 为载体, 通过分步浸渍硝酸镍、磷酸氢二铵、钼酸铵, 然后在H₂气流下程序升温还原(H₂-TPR), 制备了一系列不同Mo 含量的Mo-Ni₂P/SBA-15 催化剂. 采用X 射线衍射(XRD)、氮气吸脱附(BET)、透射电子显微镜(TEM)和X射线光电子能谱(XPS)对催化剂的结构进行了表征, 评价了催化剂对二苯并噻吩(DBT)的加氢脱硫(HDS)活性. 结果表明, Mo-Ni₂P/SBA-15 催化剂仍然保留有介孔结构, 催化剂的物相主要是Ni₂P. 催化剂表面的Ni 以Ni^δ+和Ni²⁺形式存在; P以P^δ-和P⁵⁺形式存在; Mo以Mo^δ+和Mo⁶⁺形式存在. Mo能促进催化性能的提高, 其中Mo含量为1% (w, 质量分数)的Mo-Ni₂P/SBA-15 催化剂具有最好的二苯并噻吩加氢脱硫催化活性, 在反应温度为380 ℃, 反应压力为3.0 MPa的条件下, 二苯并噻吩的转化率可达99.03%, 所有考察的Mo-Ni₂P/SBA-15都以直接加氢脱硫(DDS)途径为主.     

分等级结构对锡氧化物负载Pt室温催化甲醛氧化性能的影响

甲醛是主要的室内空气污染物,气相中甲醛去除技术具有重要意义.常用的甲醛去除技术主要包括物理和化学吸附、光催化分解和热催化氧化,其中能在常温下进行的催化氧化最具发展和实用前景.能在室温下高效催化甲醛完全氧化的催化剂一般为负载型贵金属,如铂(Pt)、钯、金、银等.除了选择具有内在高活性的组分,通过提高贵金属分散度,增强贵金属-载体相互作用,增加载体的甲醛亲和性等方法也可提高甲醛催化分解活性.以上方法主要关注催化剂化学性质的改良;另一方面,催化剂的微观几何结构以及传质快慢对表观催化反应速率也有重要影响.近年来研究表明,分等级结构利于反应物在材料孔隙中的扩散输移,可大幅提高催化活性.因此,我们制备了具有分等级结构的花状锡氧化物(SnOx)负载的Pt纳米颗粒,并研究其室温下催化分解甲醛的性能.花状SnOx以氟化亚锡和尿素为原料,通过水热法制备;Pt通过浸渍、硼氢化钠还原法负载,制备Pt/SnOx催化剂.另外,对SnOx进行球磨处理破坏其分等级结构,制备g-SnOx及Pt/g-SnOx作为对照.通过场发射扫描电镜观察,制备的锡氧化物为具有分等级结构的花状微球,直径约1?m,由厚度约20 nm的花瓣状纳米片交错连接而成.X射线衍射(XRD)谱图对应四方相氧化亚锡(SnO,JCPDS 06-0395),但也观察到四方金红石相氧化锡(SnO2,JCPDS 41-1445)的微弱特征峰.高分辨透射电镜(HRTEM)仅观察到四方相SnO的晶格条纹.根据X射线光电子能谱(XPS)结果,在花状锡氧化物的表面,锡元素的氧化态为正四价.综合以上表征结果表明:制备的锡氧化物主体为SnO,由于表面被空气氧化,含有少量SnO2.通过透射电镜观察Pt/SnOx催化剂发现,直径2–3 nm的Pt纳米颗粒高度分散负载于SnOx纳米片表面;XPS结果表明,纳米颗粒中Pt的价态为0价,与HRTEM观测结果一致.甲醛分解测试采用静态测试系统,在体积为6 L的测试箱中加入一定浓度甲醛后开始反应,监测甲醛、二氧化碳(CO2)和一氧化碳(CO)浓度随时间的变化.结果表明,花状SnOx在室温下不具有催化甲醛氧化活性,仅能通过吸附作用去除少量甲醛;而负载0价金属态Pt纳米颗粒后,甲醛快速分解为CO2和水,且无CO生成.在初始浓度170 ppm条件下,反应1 h后,甲醛去除率达到87%.Pt/SnOx催化剂的高活性表明,金属态Pt是催化甲醛氧化的活性组分.经球磨处理后制备的Pt/g-SnOx,其催化活性远低于具有分等级结构的Pt/SnOx;后者的二级反应速率常数为前者的5.6倍,证明分等级结构能有效加速甲醛催化氧化分解.本研究结果对于高效分解室内甲醛材料的设计、制备提供了一种指导性的新思路.     

镧助剂对模拟生物沼气重整制备合成气中Ni/SBA-15催化剂结构和性能的影响

以介孔分子筛SBA-15为载体, 采用浸渍法制备了镍质量分数(w)为12.5%, 并且分别添加质量分数(w)为2.5%的镧、铈、镁、钙、锶等助剂的系列Ni基催化剂. 以CH4/CO2体积比为2:1的模拟生物沼气和适量氧气作为原料气, 在常压固定床反应器上评价了催化剂对模拟生物沼气重整制合成气的反应性能. 采用X射线粉末衍射(XRD)、N2吸附/脱附、透射电子显微镜(TEM)、X射线光电子能谱(XPS)及H2程序升温还原(H2-TPR)等对催化剂的结构进行了表征. 催化活性评价显示, 添加镧助剂的2.5%La/12.5%Ni/SBA-15催化剂比添加铈、镁、钙、锶等助剂的催化剂具有更高的催化活性, 并且具有很好的稳定性. 因此, 文中着重研究了镧助剂对催化剂结构和模拟生物沼气重整制合成气的反应性能的影响. 结果表明, 镧能明显提高Ni/SBA-15催化剂的表面镍含量, 同时还具有很好的抗积炭作用, 在850 ℃的温度下反应820 h没有发现积炭生成, 这些可能是提高催化剂性能和稳定性的重要因素.     

New ZnCe catalyst encapsulated in SBA-15 in the production of 1,3-butadiene from ethanol

ZnO-CeO2/SBA-15 catalysts were prepared by two kinds of solid-state grinding method and used for the production of 1,3-butadiene(1,3-BD) from ethanol.A mixture of SBA-15(with or without organic template) and metal precursors were ground in solid-state.The obtained catalysts were characterized by TG,N2 adsorption-desorption,TEM,XRD,Py-FTIR and NH_3-TPD techniques.Superior dispersion of metal oxides and more exposed acid sites were achieved on the catalyst lOZn_1Ce_5-AS with the presence of organic template in SBA-15 during the solid-state grinding process.The catalytic performance was evaluated in a fixed-bed reactor and a 1,3-butadiene selectivity of as high as 45% is achieved.This is attributed to the coupling effect of Zn and Ce species in the mesopores of SBA-15,in which Zn promotes ethanol dehydrogenation and Ce enhances aldol-condensation,respectively.Additionally,solvent-free method inspires new catalyst synthesis strategy for the production of 1,3-butadiene from ethanol.     

Assembly immobilized palladium(0) on carboxymethylcellulose/Fe3O4 hybrid: An efficient tailor‐made magnetically catalyst for the Suzuki–Miyaura couplings

The Pd nanoparticles (Pd NPs) embedded on magnetically retrievable carboxymethylcellulose/Fe₃O₄ (Pd⁰@CMC/Fe₃O₄) organic/inorganic hybrid were prepared via the conventional simple process. The presence of the hydroxyl and carboxyl groups within the framework of the magnetic hybrid enables the facile preparation and stabilization of Pd NPs in this organic/inorganic hybrid. This hybrid catalyst was very effective in the Suzuki – Miyaura reaction of a variety of aryl halides with arylboronic acid to afford excellent product yields. The catalyst showed good stability and could be easily recovered with an external magnetic field and reused for several times without a significant loss in its catalytic activity. Furthermore, the Pd⁰@CMC/Fe₃O₄ hybrid catalyst was fully characterized by UV–Vis, FT–IR, XRD, SEM, EDX, TEM, XPS and TGA techniques. The hot filtration test suggests that a homogeneous mechanism is operative in Suzuki – Miyaura reaction.     

镧助剂对Ni2P/SBA-15催化剂结构及加氢脱硫性能的影响

以SBA-15为载体,Ni(NO3)2·6H2O为镍源,(NH4)2HPO4为磷源,制备了初始P/Ni比为0.8的Ni,P/SBA-15前驱体,然后添加La助剂,再经过干燥、焙烧和程序升温氧气还原,制备了一系列不同La含量的La-Ni,P/SBA-15催化剂.采用XRD,N2-吸脱附和XPS对催化剂的结构进行了表征,以...     

不同助剂对CuO-ZnO/SBA-15催化CO_2加氢制甲醇性能影响的研究

以硅质骨架结构介孔分子筛SBA-15为载体,采用浸渍法合成CuO-ZnO/SBA-15(CZ/SBA-15)、CuO-ZnO-MnO_2/SBA-15(CZM/SBA-15)、CuO-ZnO-ZrO_2/SBA-15(CZZ/SBA-15)三组多孔催化剂,在固定床反应器上评价了各组催化剂催化CO_2加氢合成甲醇的性能,同时结合N_2吸附-脱附(BET)、X射线衍射(XRD)、H_2程序升温还原(H_2-TPR)、程序升温脱附(H_2-TPD、CO_2-TPD)、N_2O滴定、X射线光电子能谱(XPS)、透射电子显微镜(TEM)等表征研究了不同助剂对CO_2催化加氢制甲醇的影响。结果表明,催化剂中的金属氧化物改变了SBA-15分子筛载体的孔径大小和比表面积;催化剂CuO-ZnO-MnO_2/SBA-15、CuO-Zn O-ZrO_2/SBA-15中铜的分散度(D_(Cu))和比表面积(A_(Cu))更大,表面CuO粒径更小,更易被还原;相比Mn-O簇,Zr-O簇为增强了碱性位点,提高了甲醇选择性。此外,CuO-ZnO-ZrO_2/SBA-15具有更高的氧空位浓度,催化活性更好,其甲醇选择性为25.02%,与CuO-ZnO/SBA-15、CuO-ZnO-Mn O_2/SBA-15相比分别提高了28%和136.9%,催化效果最好。     

Functionalized SBA-15 and its Catalytic Applications in Selective Organic Transformations

Ordered, mesoporous SBA-15 functionalized with organic and inorganic moieties exhibits efficient catalytic activity in a variety of organic transformations. In this account, reviewing our own work, three-sets of surface-modified SBA-15 materials have been investigated. The first-set of materials consists of SBA-15 modified with organo-acidic (propyl thiol and propyl sulfonic acid) and basic (propyl amine and propyl adenine) moieties. The second-set of materials was prepared by grafting Mn complexes to the organo-functionalized SBA-15. The third-set composes of nanocrystalline metal oxides supported on SBA-15. All these catalysts have been characterized by structural and spectroscopic techniques. Catalytic activities of the first-set of solid materials have been investigated in acid/base-catalyzed reactions viz., ring-opening of epoxides with amines (producing β-amino alcohols), esterification, three-component-Mannich reactions and cycloaddition of CO₂ to epoxides. The Mn complexes grafted on organofunctionalized SBA-15 are efficient catalysts for the chemo-, regio- and stereoselective aerial oxidation of monoterpenes at ambient conditions. TiO_x, VO_x, MoO_x and WO_x supported on SBA-15 catalyzed biomimetic oxyhalogenation of aromatic compounds. In all these reactions, the functionalized SBA-15 showed high selectivity.     

原位还原法制备Ag/SBA-15及其对CO的催化氧化

以原位还原的方法一步合成了Ag/SBA-15复合催化剂,通过粉末XRD、TEM、ICP-AES和低温氮气吸附-脱附等手段对样品进行了表征.考察了不同催化剂对CO催化活性的影响,结果表明当金属纳米的尺寸大小为6~8nm左右,银的含量为6.86%时(Ag/SBA-15-3)的催化活性最高,在120℃时就可使CO完全氧化,可以重复使用,在100%的转化温度时保持200min转化率仍不降低.     

管径对碳纳米管负载铂催化剂氧还原的影响

A series of nanocatalysts consisting of acid treated carbon nanotubes (CNTs) with different diameters (8-15, 20-30, 30-50, >50 nm) supporting platinum (Pt) nanoparticles (Pt/CNTs) were synthesized via a microwave-assisted ethylene glycol method. The as-synthesized catalysts were characterized by X-ray photoelectron spectroscopy (XPS), X-ray diffraction (XRD), thermogravimetric analysis (TGA), and transmission electron microscopy (TEM). Their catalytic performances in the oxygen reduction reaction (ORR) were evaluated by cyclic voltammetry (CV) and linear sweep voltammetry (LSV). The experimental results showed that the diameter of the CNTs influences the particle size, loading, and dispersion of Pt NPs. Furthermore, the Pt/CNTs having different CNT diameters displayed different catalytic activities in the ORR. The catalyst Pt/CNT₈, which was prepared by using CNTs with diameters ranging between 8-15 nm as the support, exhibited the highest Pt loading, catalytic activity, and stability in the ORR. The mass activity of Pt/CNT₈ was determined to be 0.188 A·mg^-1 at 0.9 V, which is folds higher than that of the commercially available JM Pt/C catalyst. After testing the stability for 5000 potential cycles, the negative shift (~7 mV) of the half-wave potential for Pt/CNT₈ was found to be significantly lesser than that for the JM Pt/C catalyst (~32 mV), indicating superior catalytic stability.     

SBA-15介孔分子筛负载型过渡金属催化燃烧脱除乙腈废气

制备了具有规则孔道结构和较高比表面积的SBA-15介孔分子筛,采用真空旋转蒸发法将过渡金属(Cu,Co,Cr和Mn)负载到SBA-15表面,得到负载型过渡金属催化剂,并将其用于含氰废气催化燃烧的实验中,考察了其催化活性.催化剂的理化性能通过X射线衍射(XRD)、氮气吸附-脱附、透射电子显微镜(TEM)、H2-程序升温还...     

SBA-15负载纳米CoMoO4催化剂催化丙烷氧化脱氢制丙烯

采用柠檬酸配位-浸渍法制备不同CoMoO4含量的系列CoMoO4/SBA-15催化剂, 通过X射线衍射、透射电镜和低温N2吸附法对样品进行了表征. 结果表明, 柠檬酸配位-浸渍法可在介孔分子筛孔道中形成高含量、均匀分散且有确定晶相的CoMoO4, 同时能够很好地保持载体的介孔结构. 与非负载的CoMoO4相比, 由柠檬酸配位-浸渍法制备的CoMoO4/SBA-15催化剂在丙烷氧化脱氢反应中具有更好的催化活性, 当CoMoO4的含量为13%(w)、反应温度为823 K时, 丙烯产率达到16.8%.     

Co-Ni2P/SBA-15/Cordierite整体式催化剂的制备及其二苯并噻吩加氢脱硫性能

用共浸渍法制备了Co-Ni2P/SBA-15前躯体,将其调制成活性胶后均匀涂覆到预处理后的堇青石载体上,程序升温还原后制备了一系列Co-Ni2P/SBA-15/堇青石整体式催化剂。采用XRD、N2吸脱附和XPS等对催化剂进行了表征,以1 wt%二苯并噻吩(DBT)/十氢萘溶液为模型化合物,在微型固定床反应器上对催化剂的加氢脱硫(HDS)性能进行了评价。结果表明,不同Co含量的Co-Ni2P/SBA-15/堇青石整体式催化剂中都形成了Ni2P相。Co的加入提高Ni2P/SBA-15/堇青石催化剂的比表面积和孔体积。Co含量为0.55wt%的Co-Ni2P/SBA-15/堇青石整体式催化剂有最好的二苯并噻吩加氢脱硫活性,在380℃,二苯并噻吩转化率能够达到98.8%。Co的加入能够提高二苯并噻吩直接加氢脱硫产物联苯的选择性。     

Mesoporous SBA-15 materials modified with PW or W active species as catalysts for the epoxidation of olefins with H<Subscript>2</Subscript>O<Subscript>2</Subscript>

Five catalysts containing PW or W active species that anchored onto aminosilylated mesoporous silica SBA-15 by a post-grafting route were prepared and the resulting PW or W/APTES/SBA-15 hybrid materials were characterized by XRD, N₂ adsorption/desorption, surface area analysis, TEM, FT-IR, and ICP (inductively coupled plasma atomic emission spectroscopy). The names of these catalysts have been abbreviated as SBA-15m-a, SBA-15m-b, SBA-15m-c, SBA-15m-d, and SBA-15m-e according to the different active species. The PW or W active species were highly dispersed in the channels of the modified mesoporous materials. The interaction between PW or W species and amino groups grafted on the channel surface of SBA-15 led to the immobilization of PW or W species. Their catalytic activity in the epoxidation of cyclooctene with H₂O₂ as oxidant was investigated. Among them, SBA-15m-a showed the best performance, with 98.9% conversion and 98.4% selectivity. The catalyst could be reused for six times with a little decrease in activity.     

氢水液相交换反应用高分散度Pt/C/FN疏水催化剂制备及Pt粒径效应研究

以乙二醇代替常规的异丙醇为分散溶剂, H₂PtCl₆为前驱体溶剂, 甲醛为还原剂, 采用改进浸渍还原法制备Pt/C催化剂, 用XRD, TEM和XPS对其进行表征. 改进浸渍还原法容易制备高分散度Pt/C催化剂, 催化剂Pt粒径大小可通过改变溶液pH值控制, pH值从1.6增加至11.3, 铂纳米粒子的平均粒径由3.3 nm减小到1.8 nm. pH值11.3时催化剂中Pt(0), Pt(II)和Pt(IV)的含量分别为43.3%, 30.8%和25.9%. 选择不同Pt粒径大小的Pt/C催化剂与聚四氟乙烯(PTFE)一起负载于泡沫镍(FN), 得到Pt/C/FN疏水催化剂, 考查其对氢水液相交换反应的催化活性, Pt粒径越小, 催化剂活性越高.     

Heteropoly acid encapsulated SBA-15/TiO2 nanocomposites and their unusual performance in acid-catalysed organic transformations

The preparation of SBA-15/TiO(2) nanocomposites with different loadings of Keggin-type 12-tungstophosphoric acid (TPA) nanocrystals in their mesochannels through a simple and effective vacuum impregnation method is reported for the first time. The catalysts have been characterised by various sophisticated techniques, including XRD, HRSEM, and TEM. It has been found that the acidity and the textural parameters of the nanocomposites can be controlled by simply changing the loadings of TPA and TiO(2) or the calcination temperature. TPA and TiO(2) loadings of 15 and 22.4 wt %, respectively, and a calcination temperature of 1123 K have proved to be optimal for obtaining mesoporous nanocomposite materials with the highest acidity. Moreover, the activities of these catalysts in promoting hydroamination as well as Mannich and Claisen rearrangement reactions have been extensively investigated. The results show that the amount of TPA has a great influence on the activity of the nanocomposites in all of the reactions studied. The effects of other reaction parameters, such as temperature and reaction time, on the conversion and product selectivity have also been studied in detail. A kinetic analysis of the formation of the products under various reaction conditions is presented. It has been found that the activity of the nanocomposite composed of 15 wt % TPA deposited on 22.4 wt of TiO(2) on SBA-15 in promoting the studied reaction is remarkably higher than the catalytic activities shown by pure TPA, TiO(2)-loaded SBA-15, or TPA-loaded SBA-15. The results obtained have indicated that the acidity and the structural control of the nanocomposite materials are highly critical for obtaining excellent catalytic activity, and the presented highly acidic nanocomposites are considered to show great potential for use as catalysts in promoting many acid-catalysed organic transformations.