ZrO_2基复合金属氧化物催化剂上CO_2温和氧化乙苯制苯乙烯（英文）

苯乙烯(SM)是聚合物化学中最重要的单体之一,由其生产的聚合物产品(如PS,SBR和ABS等)具有独特的性能,因而SM的需求逐年增加.乙苯(EB)催化脱氢工艺提供了90%的SM需求,该过程在K促进的氧化铁催化剂上于600-650℃进行.这是一个吸热且体积增大的反应,因此需要绝热反应器和大量的过热过饱和蒸汽以提供热量和降低反应分压,从而有利于反应平衡向SM方向移动,也可避免或消除积碳.同时,也造成大量潜热被浪费;热点也降低了整个反应活性和催化剂寿命.在蒸汽中加入空气或富氧空气,使得副产H_2与O_2反应,产生的热量可供随后乙苯脱氢反应,同时H_2的移除也有利于提高EB单程转化率,并保持高的SM选择性.但是,该过程需要2个催化剂,反应器的设计和催化剂的装填比较复杂,且存在爆炸的危险.因此,人们尝试了多种氧化剂和新型的催化剂.最近也有人提出软氧化剂的概念.这为开发新催化体系提供了可能.相对于O_2,CO_2的氧化性很弱,但可用作温和氧化剂去除脱氢单元中副产的H_2,降低了反应温度,且不影响反应活性和选择性;同时,具有较大的经济性和环保性,在工业上也是切实可行的.除了负载型的碱金属促进的氧化铁催化剂外,各种金属或金属氧化物也用于催化CO_2氧化EB脱氢反应中,如Fe,Cr,V和La的氧化物为活性金属,碳材料、MgO、SiO_2、Al_2O_3、Ga_2O_3、ZrO_2、TiO_2、水滑石类化合物及分子筛为载体.Park课题组研究了Fe,V和Cr基催化剂,即设计氧化还原的催化剂表面以解离CO_2,产生的O用于逆水汽反应.其中以Al_2O_3负载的V和V-Sb氧化物催化剂性能最为突出;但存在积碳失活和V物种的深度还原等问题.为了进一步提高催化剂性能,该课题组开发了多种ZrO_2基复合氧化物催化剂,包括MnO_2-ZrO_2,TiO_2-ZrO_2,CeO_2-ZrO_2和SnO_2-ZrO_2.这些催化剂具有酸碱特性,在反应中表现出较高的催化性能.因此,本文简要总结了用于CO_2氧化EB脱氢反应的ZrO_2基催化剂最新研究进展.研究发现,在CO_2氧化EB脱氢制SM反应中,CO_2在提高催化剂活性和稳定性方面起着非常重要的作用,可被定义为软氧化剂:氧化催化剂表面以保持其表面氧含量,移除催化剂表面产生的积碳和副产物H_2,为反应体系提供较高的热容以克服反应平衡限制,从而达到较高的转化率.ZrO_2基复合金属氧化物是具有改善的织构特性的纳米粒子,且具有酸碱两性和氧化还原性能.改性可提高催化体系的热稳定性和活性.其中CeO_2-V_2O_5/TiO_2-ZrO_2催化剂具有恰当的氧化还原性和酸碱两性,二者协同作用,因而催化性能最佳.氧化还原稳定剂Sb的添加进一步提高了其催化性能.碱金属和碱土金属可优化其酸碱性,增加比表面积,从而提高反应活性和选择性以及CO_2转化率.继续加强抑制积碳和促进CO_2活化方面的研究,可有望进一步提高单程转化率(75%以上)、选择性(98%)和CO_2转化率(30%).总之,CO_2氧化EB脱氢制SM是一个高度经济性和环境友好的新过程,在未来有望满足SM日益增长的需求.另外,该过程的开发可减少CO_2排放,其副产的CO还可用于多种化工过程.然而,该过程仍面临诸多挑战:如何抑制积碳,单程转化率和催化剂寿命有待进一步提高.这些挑战也给我们未来的研究提供了方向.深入理解反应机理、积碳机理和CO_2的活化过程也有利于我们开发出更适合工业应用的催化剂.     

制备方法对CuO-CeO2/ZrO2催化CO氧化性能的影响

以ZrO2为载体、采用不同的浸渍次序制备了3种CuO-CeO2/ZrO2催化剂并在不同的温度(500,650和800℃)下进行焙烧,利用X射线衍射(XRD)、程序升温还原(H2-TPR和CO-TPR)及CO程序升温脱附(CO-TPD)技术对所制备的催化剂进行了表征,并采用色谱流动法考察了其催化CO低温氧化反应性能。结果表明,当焙烧温度为650℃时,3种催化剂的CO催化氧化活性均最佳,且三者的催化活性大小顺序为:CuO/CeO2/ZrO2>CuO-CeO2/ZrO2>CeO2/CuO/ZrO2。结合催化剂的表征和活性测试结果,我们认为高分散的CuO是CO的吸附中心,有利于CO的低温氧化反应,而大颗粒的CuO几乎对CO没有吸附作用,不利于CO的低温氧化反应。在3种催化剂中,CuO/CeO2/ZrO2催化剂具有最佳的低温还原特性和最大的CO2脱附峰面积,相应地具有最佳的催化氧化活性。     

制备方法对CuO/CeO_2-ZrO_2催化CO低温氧化活性的影响

采用微波加热分解法(一步法)和微波加热处理共沉淀+浸渍法(两步法)制备了CuO/CeO2-ZrO2催化剂,并对其进行了X射线衍射、低温氮气吸附/脱附和程序升温还原等表征,采用色谱流动法考察了催化剂的催化CO低温氧化性能.结果表明,一步法比两步法更有利于使催化剂表面CuO高度分散,CuO与CeO2-ZrO2间的相互作用更强,CuO更容易被还原,从而具有更高的催化CO氧化活性.与CeO2-ZrO2有相互作用的高分散和小颗粒CuO有利于催化剂活性的提高,与CeO2-ZrO2无相互作用的大颗粒CuO对催化剂的活性有抑制作用.     

ZrO2改性对Pt/Al2O3催化剂上CO氧化性能的影响

用流动反应法、TPR和TPD－MS等技术研究了Pt／Al2O3催化剂掺杂ZrO2体系上CO的催化氧化反应、氧物种的还原及脱出－恢复行为．结果表明，掺杂ZrO2有利于催化剂上氧物种的脱出－恢复，从而促进CO氧化活性及表面活泼氧物种与氢的反应．并用催化剂集团结构适应理论对结果作出了解释．     

正丁烷在金属钼酸盐催化剂上的氧化脱氢

 用柠檬酸盐法合成了第一系列过渡金属(Cr,Mn,Fe,Co,Ni,Cu和Zn)及Mg的钼酸盐催化剂,研究 了它们对正丁烷氧化脱氢反应的催化作用. 结果表明,这些钼酸盐催化剂的催化性能受阳离子的影响较大. CoMoO4催化剂具有最高的催化活性和较高的选择性,其催化性能与文献报道的对正丁烷氧化脱氢反应催化性能最好的ZrP2O7和Mg3V2O8催化剂大致相当; MgMoO4催化剂虽然选择性较高,但活性较低; Cr2(MoO4)3上基本没有C4烯烃生成; 其它钼酸盐催化剂对正丁烷氧化脱氢反应的催化活性和对烯烃的选择性都较低. XRD,NH3-TPD和H2-TPR的研究结果表明,催化剂为单一的钼酸盐晶相,催化剂的性能由其氧化还原性决定而与其表面酸量没有直接关系. 通过对产物分布的分析,提出了正丁烷在CoMoO4催化剂上的氧化脱氢反应途径. 在558 ℃,正丁烷发生氧化脱氢生成正丁烯和丁二烯以及氧化燃烧生成CO2三个平行竞争反应的竞争分率分别约为75%,10%和15%. 在正丁烷转化率较高的条件下,产物中的CO2主要来自C4烯烃的再氧化反应,而CO则完全来自C4烯烃的再氧化.     

整体式Pd/La_2O_3-Al_2O_3和Pd/CeO_2-ZrO_2-Y_2O_3催化剂上汽油车尾气净化性能的比较

采用共沉淀法制备了耐高温高比表面积的La2O3-Al2O3(LA)材料和CeO2-ZrO2-Y2O3(CZY)储氧材料,并用浸渍法制备了整体式Pd/LA和Pd/CZY汽油车尾气净化三效催化剂,考察了它们的三效催化性能和空燃比性能,并单独通过水煤气变换和CO氧化反应性能的考察,探讨了两种催化剂空燃比窗口扩大的原因.结果表明,Pd/CZY催化剂三效窗口明显较宽,且催化氧化CO的性能明显更优;对于CO+NO反应,Pd/CZY催化剂的活性较高.当反应中逐步通入O2后,抑制了该反应的进行,但CO氧化的转化率升高,而NO转化率降低,直至CO+NO反应完全被抑制,表明CO氧化反应对于抑制催化剂在NO贫燃方向的窗口具有一定的作用.另外,Pd/CZY催化剂上对于水煤气变换反应性能明显优于Pd/LA催化剂,在一定温度下逐步通入O2后,不会抑制水煤气变换反应的发生;当逐步通入NO时,可以促进水煤气变换反应的进行,表明Pd/CZY催化剂在富燃时对扩展CO转化窗口的性能明显优于Pd/LA催化剂.     

CO2氧化丙烷脱氢制丙烯用Pd-Cu/V2O5-SiO2催化剂的研究

 采用等体积浸渍法制备了V2O5-SiO2负载的Pd-Cu双金属催化剂,以程序升温还原/程序升温氧化、红外光谱、程序升温脱附和微反技术表征了Pd-Cu/V2O5-SiO2对CO2和丙烷的化学吸附性能及对CO2部分氧化丙烷脱氢反应的催化性能. 结果表明,在催化剂表面金属活性位(Pd,Cu)和邻近的Vn+协同下形成的CO2卧式吸附态可在172和284 ℃断裂形成CO和晶格氧,以甲基氢和亚甲基氢双位吸附在V=O上的丙烷分子吸附态可在238 ℃脱氢生成丙烯. 在600 ℃,CO2/C3H8体积比为1和空速为1?286 h-1的条件下,丙烷转化率为35.22%,丙烯选择性为85.44%. 催化剂V=O中的晶格氧参与了丙烷氧化脱氢过程.     

CO2消除镓氢物种提升Ga2O3/SiO2丙烷脱氢反应性能

丙烯是一种基础石油化工原料,在全球石油化工生产中占有重要地位.以丙烯为原料可生产许多石油化学品,如丙烯腈、环氧丙烷和聚丙烯等.经济快速发展带动了丙烯下游衍生物产业的发展,进而增加了对丙烯的需求量,因此尽管近年来丙烯产能逐年上升,丙烯产量与需求量之间仍存在较大缺口.传统的丙烯生产路径主要是石脑油蒸汽裂解和重质油催化裂化.然而,随着石油资源的短缺和页岩气的发展,丙烷脱氢作为一种直接生产丙烯的技术,成为丙烯生产领域的研究热点.近年来,镓基催化剂由于其较少的积碳和较高的催化活性受到了越来越多的关注.镓基催化剂在丙烷脱氢反应中的活性位点也得到了更多研究.在镓基催化剂中,镓氧化物具有丙烷脱氢活性,而丙烷脱氢反应过程中产生的镓氢(Gaδ+-Hx)物种不稳定,且会造成丙烯选择性降低,导致丙烯产率降低.因此,反应过程中原位消除镓氢物种对于提高丙烷脱氢反应性能具有非常重要的意义.本文将CO2作为温和氧化剂引入Ga2O3/SiO2催化的丙烷脱氢反应中,促进不利的中间产物Gaδ+-Hx的转化,再生丙烷脱氢的活性位点Ga3+-O,从而提高催化性能.原位红外光谱实验结果表明,CO2可有效消除Gaδ+-Hx.在不同反应温度下,引入CO2可显著提高Ga2O3/SiO2催化丙烷脱氢的转化率,特别是选择性.反应4.5 h时,3Ga2O3/SiO2催化丙烷脱氢的选择性从93％降低到89％;引入CO2后,丙烯选择性可提高到并维持在93％.Ga2O3负载量由3 wt％提高到10 wt％时,引入CO2仍可促进反应性能.当CO2:C3H8由0.5增加到3时,引入CO2带来的反应性能提升基本相同.同时,引入CO2大大减少反应过程中产生的积碳.本文对镓基催化剂丙烷脱氢活性中心的认识和提高丙烷脱氢反应性能提供了新方向.     

贵金属对 NM/WO3-ZrO2 (NM = Ru, Rh 和 Pd) 催化乙烯直接氧化制乙酸反应的影响

 研究了负载 Ru, Rh 和 Pd 的 WO3-ZrO2 催化剂在乙烯直接氧化制乙酸反应中的催化性能. 结果显示, 负载的贵金属对催化剂的催化性能有非常重要的影响. Rh/WO3-ZrO2 催化剂具有最高的乙烯转化率, 而 Ru/WO3-ZrO2 催化剂对反应几乎没有活性. H2 化学吸附结果显示, 高的催化性能来源于高的金属分散度. Pd/WO3-ZrO2 催化剂显示了最高的乙酸选择性 (75%), 而其它两个催化剂的乙酸选择性都非常低 (~10%). 程序升温氧化和程序升温还原结果显示, 贵金属–O 键的键强对产物的选择性具有重要的影响. 弱的贵金属–O 键可以通过将氧插入到乙烯和/或乙醛中而有利于乙酸的生成, 而强的贵金属–O 键会导致乙烯完全氧化为 COx.     

固相球磨法制备丙烷氧化脱氢V2O5/NiO催化剂

以不同温度焙烧制备的NiO和V2O5为前驱物,采用固相球磨法制备了V2O5/NiO催化剂,考察了前驱物的焙烧温度对该催化剂丙烷氧化脱氢制丙烯反应性能的影响,并采用x射线衍射、N2物理吸附、电感耦合等离子体原子发射光谱、透射电子显微镜、H2程序升温还原和x射线光电子能谱等对催化剂进行了表征.结果表明,固相球磨法制备的V2O5/NiO催化剂表现出较好的丙烷氧化脱氢制丙烯催化性能,当以400℃焙烧的氧化物为前驱体时,V2O5/NiO催化剂表面含有较多的未完全还原氧物种Oδ-,因而表现出了较高的丙烯选择性.在475℃反应时,丙烷转化率可达20.1%,丙烯选择性达到71.2%.     

Superconductivity in the intermetallic borocarbides YPd2B2C,YPt2B2C and LaPt2B2C

We report a detailed study of the thermodynamic properties of the conventional phonon-mediated superconductors YPd₂B₂C, YPt₂B₂C and LaPt₂B₂C. Our calculations conducted within the framework of the Migdal-Eliashberg formalism show that the experimental values of the critical temperature cannot be properly reproduced using commonly accepted value of Coulomb pseudopotential. Moreover, we proved that the values of universal ratios of conventional superconductivity appearing in the Bardeen-Copper-Schrieffer (BCS) theory are inconsistent with our results obtained from the investigated borocarbides. The observed differences are connected with the strong/medium-coupling and retardation effects existing in the studied systems.     

Electronic properties and 1/3 magnetization plateau of the S=1/2 magnetism Cu3(P2O6OH)2

First, the geometrical structure, energy band structure, density of states, and overlap population of the copper hydroxydiphosphate ( ) are investigated systematically using the first‐principles density functional method. The generalized gradient approximations (GGA)+U method is adopted to consider the on‐site coulomb repulsion on Cu 3d orbits. The theoretical structural results obtained by the geometry optimization agree well with the experimental data. Energy band structures show that the belongs to a semiconductor. It is found that the on‐site Coulomb repulsion plays a key role in the opening of the energy gap. The uppest valence band is found to be mainly contributed from O 2p and Cu 3d states, but the lowest conduction band is characterized by Cu 3d state. Furthermore, a strong hybridization between O‐2p and Cu‐3d orbits is observed. Then, the magnetization, bipartite entanglement, and the nearest‐neighbor correlations in such a cuprate are calculated by the infinite time‐evolving block decimation algorithm. Distinctive magnetization plateaus accompanied with some interesting bipartite entanglement and correlation plateaus are observed at T=0 k in the thermodynamic limit. © 2014 Wiley Periodicals, Inc.     

TEAOH-TMABr-Al2O3-SiO2-H2O体系中小晶粒offretite沸石的合成研究

不加无机强碱，在纯有机胺体系中合成了小晶粒offretite沸石，并采用XRD、SEM、FT-IR以及苯与丙烯烷基化制异丙苯探针反应对典型样品进行了结构性能表征。结果表明，采用四乙基氢氧化铵TEAOH与四甲基溴化铵TMABr为双模板剂时，TEAOH的量对合成产物影响很大，而TMABr的量增大容易导致生成Beta沸石。所合成的offretite沸石在苯与丙烯烷基化制异丙苯反应中活性和选择性较高。     

ChemInform Abstract: Electronic,Magnetic Properties and Chemical Bonding in Layered Oxychalcogenides Ca4Fe2Cu2S2O6 and Ca4Fe2Cu2Se2O6 from First Principles Calculations.

Electronic and magnetic properties of the title compounds are determined by first-principle DFT (FLAPW-GGA) calculations.     

Magnesium and cadmium containing Heusler phases REPd2Mg,REPd2Cd,REAg2Mg,REAu2Mg and REAu2Cd

Twenty-eight new Heusler phases REPd₂Mg, REPd₂Cd, REAg₂Mg, REAu₂Mg and REAu₂Cd with different rare earth elements were synthesized from the elements in sealed niobium ampoules in a water-cooled sample chamber of an induction furnace. The samples were characterized by powder X-ray diffraction. The cell volumes show the expected lanthanide contraction. The structures of YPd₂Cd, GdPd₂Cd, GdAu₂Cd, Y_1.12Ag₂Mg_0.88 and GdAg₂Mg were refined based on single crystal diffractometer data. The magnetic properties were determined for fifteen phase pure samples. LuAu₂Mg is a weak Pauli paramagnet with a susceptibility of 1.0(2) × 10⁻⁵ emu mol⁻¹ at room temperature. The remaining samples show stable trivalent rare earth ions and most of them order magnetically at low temperatures. The ferromagnet GdAg₂Mg shows the highest ordering temperature of T_C = 98.3 K. ¹¹³Cd and ⁸⁹Y MAS NMR spectra of YAu₂Cd and YPd₂Cd confirm the presence of unique crystallographic sites. The resonances are characterized by large Knight shifts, whose magnitude can be correlated with electronegativity trends.     

Synthesis and characterization of hyperbranched aromatic polyamide copolymers prepared from AB2 and AB monomers

A series of hyperbranched aromatic polyamide copolymers has been prepared and characterized from direct polycondensation of AB₂ and AB monomers. Structure of the monomers and the molar ratio of AB₂/AB showed strong influence on the properties of resulting copolymers. A small amount of AB₂ branching unit improved markedly the solubility of the resulting copolymer. Mark-Houwink parameters of the copolymers were essentially independent of the mole ratio of the monomers. The physical and mechanical properties of resulting copolymers were influenced not only by the mole ratio of monomers, but also by the structure of the monomers employed.     

三苯基锡(Ⅳ)荒酸盐Ph3SnS2CN(C2H5)2的波谱及结构研究

合成了三苯基锡(Ⅳ)Ⅳ，Ⅳ-二乙基荒酸盐。通过元素分析、红外光谱和核磁共振氢谱对其结构进行了表征。用X-射线单晶衍射测定了该化合物的晶体结构；结果表明，化合物中锡原子呈五配位畸变三角双锥构型。     

Theoretical exploration on the vibrational and mechanical properties of M3C2/M3C2T2 MXenes

MXenes have attracted intensive attention in chemistry and material science for their special structures and properties. In order to understand the basic physical properties of the M₃C₂/M₃C₂T₂ (MSc, Ti, V, Cr, Zr, Nb, Mo, Hf, Ta, W; TF, O, OH) MXenes, first-principles calculations are carried out to investigate the structural, vibrational, and mechanical properties in this work. Both the metal atoms and surface groups can significantly influence the configurations or mechanical behaviors of the MXenes. The dehydrogenation tendency is calculated to evaluate the possible forms of the M₃C₂(OH)₂ toward M₃C₂O₂. The work functions of MXenes functionalized by different groups are compared, and the lower work functions for the  OH functionalized ones, which can be as low as 1.358 eV for the Sc₃C₂(OH)₂, suggest potential good performance in electron emission. In addition, the stability, mechanical properties, and the Raman and infrared (IR) activity modes of the MXenes are reported. Generally, functionalized MXenes would present smaller lattice parameters, lower free energies, and stronger mechanical strength compared to their counterparts. The data obtained may provide important theoretical ground for the investigations of the applications of MXenes.     

Synthesis of 2D Molybdenum Disulfide (MoS2) for enhancement of mechanical and electrical properties of polystyrene (PS) polymer

In this research article, ultrasound assisted exfoliation in a liquid phase production process has been adopted for synthesis of 2D Molybdenum Disulfide (MoS₂). The energetic governing dispersion of Nano sheets in a wide range of solvents has been studied. Nano sheets dispersion in an aqueous media has been prepared with the help of high surface tension solvents like N-Methyl-1, 2-Pyyrolidone (NMP) and Tetrahydrofuran (THF). The dispersion was composed of layers of MoS₂ with some quantities of mono and bi-layer materials were observed. Scanning Electron Microscopy (SEM), X-Rays Diffractometry (XRD), Transmission Electron Microscopy (TEM) and Atomic Force Microscopy (AFM) were used to characterize the samples; SEM clearly evident the microstructure of samples while XRD shows the peaks of filler in the polystyrene composite membrane. AFM confirmed the presence of 2D MoS₂ with 0.9–7 nm thickness range of MoS₂ flake. In order to get the surfactant stabilized dispersed material, the processing was enhanced using prolonged sonication to yield maximized concentration. Liquid phase exfoliation allows dispersion to be cast into thin film by using vacuum filtration assembly. The obtained film is dispersed in solvent and is used in polymers. Two sets of concentrations (0.01, 0.03, 0.05 and 0.07% by wt. and 0.1, 0.3, 0.7 and 0.9% by wt.) were analyzed and it was observed during tensile testing that modulus of elasticity (E), percentage elongation and ultimate tensile strength (UTS) of composite material increases maximum up to 741times, 374 times and 200 times as compared to base polymer (PS), respectively. Furthermore, dielectric constant, dielectric loss and electrical conductivity of PS-MoS₂ were also evaluated and finding clearly pointed out that filler loading of MoS₂ has considerable effects on these properties and maximum value of dielectric constant is 3.6 at 0.9% loading as compared with of pure PS (polystyrene) matrix. On the other hand, variation in dielectric loss from lower to higher frequency is 2.5 × 10⁻² on average which is not so significant. Electrical conductivity was also accounted, and measurement results are indicating that conductivity was almost constant at lower frequency in range of 10⁻¹⁰ due to low field strength, but it increases to 10⁻⁹ value at higher frequency due to hoping mechanism and network formation of filler.     

Sm2O3改性对S2O2-8/ZrO2-SiO2固体超强酸催化剂性能的影响

硫酸促进型固体超强酸催化剂具有极强的酸性,制备简单,在酯化、烷基化、酰基化等有机反应中催化活性高,可重复使用,对设备腐蚀小,环境友好,是一类具有广阔应用前景的新型绿色催化材料,已成为固体超强酸研究的热点之一。然而,目前该类催化剂使用成本高、比表面小、含硫基团容易流失、稳定性差,阻碍了其在工业上的推广和应用。为了探索和改善其催化性能,近年来多组分氧化物的固体超强酸开始引起人们的关注。