含Y或La助剂的CuO／ZrO2合成甲醇催化剂的性能和结构研究

通过ＣｕＯ／ＺｒＯ２及含Ｙ或Ｌａ助剂的ＣｕＯ／ＺｒＯ２催化剂对ＯＣ／Ｈ２合成甲醇性能的研究，发现稀土助剂能有效地提高该催化剂的活性。ＸＲＤ结果说明，ＣｕＯ｜ＺｒＯ２中加入Ｙ或Ｌａ助剂可使氧化铜处于较高的分散状态。ＴＰＲ结果揭示ＣｕＯ／ＺｒＯ２催化剂中存在着在室温就很容易被氧人的铜，它在催化剂中含量的增加导致催化剂活性的提高，是关切的活性组份。助剂的加入使这种易被氧化的铜含量增加。ＸＰＳ表面分析结果     

CO／H_2合成甲醇CuO－ZnO－ZrO_2催化剂的研究

通过活性测定，ＸＲＤ、ＴＧ－ＤＴＡ表征，考察了共沉淀法制备的铜锌锆合成甲醇催化剂中ＺｒＯ＿２对物相结构、催化活性及热稳定性的影响。结果表明，ＺｒＯ＿２能显著提高ＣＯ／Ｈ＿２合成甲醇的催化活性和热稳定性。催化剂母体、氧化态和还原态的物相并未发生变化，仍分别为：Ｃｕ＿２（ＯＨ）＿３ＮＯ＿３，（Ｃｕ，Ｚｎ）＿５（ＣＯ＿３）＿２（ＯＨ）＿６，（Ｃｕ，Ｚｎ）＿２ＣＯ＿３（ＯＨ）＿２，Ｚｎ＿５（ＣＯ＿３）＿２（ＯＨ）＿６；ＣｕＯ、２ｎＯ；Ｃｕ，ＺｎＯ。ＺｒＯ＿２使催化剂各组分的结晶度变得更差，晶粒更细。实验证明催化剂中ＺｒＯ＿２主要以无定形状态存在，也不排除与其它组分形成固溶体。本文还探讨了ＺｒＯ＿２提高催化活性和热稳定性的原因。认为ＺｒＯ＿２既起了载体的高分散作用，间隔活性组分作用，又起了增加和稳定活性中心的促进剂作用。     

载体制备方法对合成甲醇催化剂的影响

通过比较以超临界干燥法和以普通空气中干燥得到的氧化锆为载体的ＣｕＯ／ＺｒＯ２催化剂，发现前者对ＣＯ／２Ｈ２合成甲醇的活性优于后者。ＸＲＤ和ＴＰＲ结果表明以超界干燥法制得的氧化锆为载体的催化剂ＣｕＯ的分散度比空气中干燥所得的氧化锆为载体的催化剂高。     

铜基氧化锆载体合成甲醇催化剂的结构表征

以ＸＲＤ，ＥＸＡＦＳ和ＥＳＲ等手段考察了ＣｕＯ／ＺｒＯ２催化剂及其还原态的结构，结果表明，在ＣｕＯ／ＺｒＯ２中铜以ＣｕＯ的形式存在，ＺｒＯ２载体对所负载的ＣｕＯ的结构有影响，ＣｕＯ的分散度与焙烧温度有关，在适当的温度下焙烧，负载于ＺｒＯ２上的ＣｕＯ可自发分散，在还原态试样中铜主要以有金属的形式存在，但是当试样中铜的含量小，铜的分散度高时有铜的氧化物存在，其Ｃｕ－Ｏ键距介于ＣｕＯ与ＣｕＯ２之间，Ｃｕ     

Cu/TiO_2和Cu/ZrO_2催化甲醇脱氢反应的对比研究(英文)

考察了ＴｉＯ_２和ＺｒＯ_２担载的铜基催化剂的结构及其催化甲醇脱氢的反应性能。氮吸附和ＥＸＡＦＳ结果显示,两个催化剂的结构性质以及铜所处的配位环境比较接近。但Ｘ-射线光电子能谱测试结果显示,催化剂Ｃｕ／ＴｉＯ_２中铜周围的电子密度较催化剂Ｃｕ／ＺｉＯ_２中的高。ＴｉＯ_２结果表明,ＴｉＯ_２能够降低与之接触的较大ＣｕＯ的还原温度。催化剂电子结构的不同导致反应性能的差异,在Ｃｕ／ＴｉＯ_２催化剂上甲酸甲酯是主要产物,而Ｃｕ／ＺｒＯ_２催化剂则催化甲醇深度脱氢生成ＣＯ。此外,Ｃｕ／ＺｒＯ_２催化剂失活较Ｃｕ／ＴｉＯ_２催化剂慢得多。     

在涂层TiO2改性铜催化剂上甲醇脱氢制甲酸甲酯

在常压和２５０℃下，考察了涂层ＴｉＯ２改性铜催化剂上甲醇脱氢生成甲酸甲酯的活性和选择性以及催化剂的稳定性。结果表明，涂层ＴｉＯ２明显提高了铜催化剂的活性和稳定性。在所考察的铜催化剂中，以Ｃｕ／ＴｉＯ２／ＡｌＯ３的催化活性最高，甚至高于离子交换法制备的Ｃｕ（ｅｘ）／ＳｉＯ２催化剂。ＸＰＳ分析表明，Ｃｕ／ＴｉＯ２／ＡｌＯ３中存在着两种化学环境不同的ＣＵ（０），即负载在ｒ－ＡＬＯ３和ＴｉＯ２－Ａｌ２Ｏ３     

CuO／CeO2和CuO／Al2O3催化剂的催化性能

本文以ＣＯ氧化为模式反应考察了ＣｅＯ２和Ａｌ２Ｏ３负载氧化铜催化剂的氧化活性，运用ＸＲＤ和ＴＰＲ技术研究了催化剂的还原性能和物相结构，结果表明：载体性质对负载ＣｕＯ催化剂的ＣＯ氧化活性有很大影响，ＣｕＯ／ＣｅＯ２催化剂活性明显高于ＣｕＯ／Ａｌ２Ｏ３催化剂．催化剂的还原特性随载体不同而不同．同时发现，热处理对催化剂铜物种的存在形式，晶粒大小、还原特性及其催化活性有明显影响，ＣｕＯ／Ａｌ２Ｏ３催化剂活性下降的主要因素是生成了活性较低的ＣｕＡｌ２Ｏ４相，而ＣｕＯ／ＣｅＯ２催化剂活性下降是由于ＣｕＯ和ＣｅＯ２发生烧结，晶粒变大     

Cu/ZrO2-Al2O3上表面氧物种脱附及其对催化性能的影响

采用ＸＲＤ,ＴＰＤ－ＭＳ和ＴＰＲ方法研究了ＺｒＯ２的改性对ＣｕＯ／γ－Ａｌ２Ｏ３催化剂上铜物种人散状态,表面氧物种的脱附和恢复性能,铜物种还原再氧行为的影响,并ＣＯ氧化反应为探针考察了催化剂的氧化活性,结果表明,ＺｒＯ２的存在的铜物种在γ－Ａｌ２Ｏ３载体上的分散容量降低,促进ＣｕＯ／γ－Ａｌ２Ｏ３催化剂上表面氧物种的脱附,同时有效地促进铜物种的还原,从而增加ＣＯ的氧化活性,实验还发现热处理条件对催     

制备高碳醇用Cu-Zn-Zr催化剂的研究

研究了制备高碳醇用新的催化体系ＣｕＺｎＺｒ．ＣｕＺｎＺｒ催化剂可用Ｃｕ（ＮＯ３）２,Ｚｎ（ＮＯ３）２,ＺｒＯＣｌ２和Ｎａ２ＣＯ３为原料,采用并流共沉淀法制备．研究结果表明,ＣｕＺｎＺｒ催化剂对脂肪酸甲酯加氢制备高碳脂肪醇具有很高的活性．催化剂的活性测定结果及ＸＲＤ和ＴＰＲ表征结果表明,Ｃｕ和Ｚｎ都是该催化剂的活性组分,Ｃｕ０和ＺｎＯ是其活性物相,Ｚｒ组分以ＺｒＯ物相存在,对活性组分起着间隔分散作用．用ＡＳＡＰ２０００型物理吸附仪测定了催化剂的比表面积、比孔容、孔结构和孔径分布,揭示了在不同条件下制备的ＣｕＺｎＺｒ催化剂活性差异的原因     

CO／H2合成甲醇CuO—ZnO—ZrO2催化剂的研究

通过活性测定，ＸＲＤ、ＴＧ－ＤＴＡ表征，考察了共沉淀法制备的铜锌锆合成甲醇催化剂中ＺｒＯ２对物相结构、催化活性及热稳定性的影响。结果表明，ＺｒＯ２能显著提高ＣＯ／Ｈ２合成甲醇的催化活性和热稳定性。催化剂母体、氧化态和还原态的物相并未发生变化，仍分别为：Ｃｕ２（ＯＨ）３ＮＯ３，（Ｃｕ，Ｚｎ）５（ＣＯ３）２（ＯＨ）６，（Ｃｕ，Ｚｎ）２ＣＯ３（ＯＨ）２，Ｚｎ５（ＣＯ３）２（ＯＨ）６；ＣｕＯ、ＺｎＯ；Ｃｕ     

Li2O-TiO2-SiO2-P2O5和Li2O-TiO2-Al2O3-P2O5体系锂离子固体电解质的制备及性能研究

一些具有NASICON型网格结构的固体电解质具有高的电导率和好的稳定性,NASICON的意思是Na Super Ionic Conductor[1]。当NaZr2(PO4)3中P5 被Si4 部分取代时便可以得到具有NASICON结构的Na1 xZr2SixP3-xO12体系,其具有高的钠离子电导率。然而有相同结构的Li1 xZr2SixP3-xO12体系的离子电导率却很低,这是因为Li 半径太小,而NASICON三维网格结构的离子通道太大,两者不匹配而使电导率下降[2]。但当LiZr2(PO4)3中Zr4 被离子半径小些的Ti4 取代,所得LiTi2(PO4)3的通道就与Li 半径相匹配,适合于锂离子的迁移,从而使其电导率…     

The preparation of NbH5(Me2PCH2CH2Me2)2 and NbHL2(Me2PCH2CH2PMe2)2 (L = CO or C2H4)

MMe₅(dmpe) (M = Nb or Ta, dmpe = Me₂PCH₂CH₂PMe₂) reacts with H₂ (500 atm) and dmpe in THF at 60°C to give MH₅(dmpe)_2? NbH₅(dmpe)₂ readily reacts with two mol of CO or ethylene (L) to give NbHL₂(dmpe)₂. The exchange of the hydride ligand with the ethylene protons in NbH(C₂H₄)₂(dmpe)₂ is not rapid on the ¹H NMR time scale (60 MHz) at 95°C.     

Formation of nano-crystalline quartz crystals from ZnO/MgO/Al2O3/TiO2/ZrO2/SiO2 glasses

Glasses with the compositions 50.9 SiO₂ · 20.8 Al₂O₃ · (20.8 ? x) MgO· × ZnO · 3.7 TiO₂ · 3.7 ZrO₂ with x = 0, 2.3, 4.6 and 9.3 were annealed at temperatures in the range from 850 to 1100 °C. Depending on temperature, high- or low-quartz solid solutions, magnesium aluminosilicate, mullit and spinel precipitated. These glass–ceramics exhibit excellent mechanical properties and are potential candidates for applications in micromechanics or as hard disc substrate.The larger the ZnO concentration, the lower is the glass transition temperature. Also microhardnesses and Young’s moduli increased with increasing ZnO concentration. The nucleation temperature was of minor importance. To achieve good mechanical properties, the initially formed high-quartz phase must transform to the corresponding low-quartz phase. This occurs if the quartz phase contains only minor MgO or ZnO concentrations, which can be achieved by increasing the annealing times or temperature. Then MgO, ZnO and Al₂O₃ occur as separate spinel or gahnite phase.     

Reaction Mechanisms in Both a CCl2F2/O2/Ar and a CCl2F2/H2/Ar RF Plasma Environment

Decomposition of dichlorodifluoromethane (CCl₂F₂ or CFC-12) in aradiofrequency (RF) plasma system is demonstrated. The CCl₂F₂decomposition fractions _{CCl 2 F 2} and mole fractionsof detected products in the effluent gas stream of CCl₂F₂/O₂/Ar andCCl₂F₂/H₂/Ar plasma, respectively, have been determined. The experimentalparameters including input power wattage, O₂/CCl₂F₂ or H₂/CCl₂F₂ ratio,operational pressure, and CCl₂F₂ feeding concentration wereinvestigated. The main carbonaceous product in the CCl₂F₂/O₂/Arplasma system was CO₂, while that in the CCl₂F₂/H₂/Ar plasma systemwas CH₄ and C₂H₂. Furthermore, the possible reaction pathways werebuilt-up and elucidated in this study. The results of the experimentsshowed that the highly electronegative chlorine and fluorine wouldeasily separate from the CCl₂F₂ molecule and combine with the addedreaction gas. This led to the reactions terminated with the CO₂,CH₄, and C₂H₂ formation, because of their high bonding strength. Theaddition of hydrogen would form a preferential pathway for the HCland HF formations, which were thermodynamically stable diatomicspecies that would limit the production of CCl₃F, CClF₃, CF₄, andCCl₄. In addition, the HCl and HF could be removed by neutral orscrubber method. Hence, a hydrogen-based RF plasma system provideda better alternative to decompose CCl₂F₂.     

Cu-MOF催化过氧化氢应用于多巴胺的检测

本文利用一种具有H_2O_2催化活性的Cu-MOF[Cu_3(BTC)_2(H_2O)_3,简称HKUST-1],构建了以邻苯二胺(OPD)为颜色指示分子的比色传感体系,实现了对H_2O_2和多巴胺(DA)的快速灵敏检测。HKUST-1起到催化H_2O_2氧化OPD的作用,反应体系能够呈现出显著的颜色变化。在优化条件下,415nm处的吸收峰强度与H_2O_2浓度呈双线性关系,线性范围分别为10~50 mmol/L和50~100 mmol/L,相对标准偏差分别为0.9947和0.9995,最低检出限为1.29mmol/L。由于DA能抑制H_2O_2氧化OPD,因此比色传感体系还可以用于快速检测DA,线性范围分别为0.25~5μmol/L和2.5~25μmol/L,相对标准偏差分别为0.9783和0.9705,最低检出限为0.262μmol/L。该项工作拓展了Cu-MOFs材料在生物分子催化和生物传感方面的应用。     

Removal of NO in NO/N2, NO/N2/O2, NO/CH4/N2, and NO/CH4/O2/N2 systems by flowing microwave discharges

In this paper, continuing previous work, we report on experiments carried out to investigate the removal of NO from simulated flue gas in nonthermal plasmas. The plasma-induced decomposition of small concentrations of NO in N2 used as the carrier gas and O2 and CH4 as minority components has been studied in a surface wave discharge induced with a surfatron launcher. The reaction products and efficiency have been monitored by mass spectrometry as a function of the composition of the mixture. NO is effectively decomposed into N2 and O2 even in the presence of O2, provided always that enough CH4 is also present in the mixture. Other majority products of the plasma reactions under these conditions are NH3, CO, and H2. In the absence of O2, decomposition of NO also occurs, although in that case HCN accompanies the other reaction products as a majority component. The plasma for the different reaction mixtures has been characterized by optical emission spectroscopy. Intermediate excited species of NO*, C*, CN*, NH*, and CH* have been monitored depending on the gas mixture. The type of species detected and their evolution with the gas composition are in agreement with the reaction products detected in each case. The observations by mass spectrometry and optical emission spectroscopy are in agreement with the kinetic reaction models available in literature for simple plasma reactions in simple reaction mixtures.     

Formation of [Cp2TiSbMe2]2, [Cp2TiSb(SiMe3)2]2 and [Cp2TiCl]2·2Mes4Sb2

Reactions of [Cp₂Ti(btmsa)] (btmsa = bis(trimethylsilyl)acetylene) with R₄Sb₂ (R = Me, Me₃Si) give [Cp₂TiSbMe₂]₂ (1) or [Cp₂TiSb(SiMe₃)₂]₂ (2) respectively. [Cp₂TiCl]₂·2Mes₄Sb₂ (3) is serendipitously formed from [Cp₂Ti(btmsa)] and Mes₂SbH containing NH₄Cl traces.     

Conversion of NO in NO/N2, NO/O2/N2, NO/C2H4/N2 and NO/C2H4/O2/N2 Systems by Dielectric Barrier Discharge Plasmas

An experimental study on the conversion of NO in the NO/N₂, NO/O₂/N₂, NO/C₂H₄/N₂ and NO/C₂H₄/O₂/N₂ systems has been carried out using dielectric barrier discharge (DBD) plasmas at atmospheric pressure. In the NO/N₂ system, NO decomposition to N₂ and O₂ is the dominating reaction; NO conversion to NO₂ is less significant. O₂ produced from NO decomposition was detected by an on-line mass spectrometer. With the increase of NO initial concentration, the concentration of O₂ produced decreases at 298 K, but slightly increases at 523 K. In the NO/O₂/N₂ system, NO is mainly oxidized to NO₂, but NO conversion becomes very low at 523 K and over 1.6% of O₂. In the NO/C₂H₄/N₂ system, NO is reduced to N₂ with about the same NO conversion as that in the NO/N₂ system but without NO₂ formation. In the NO/C₂H₄/O₂/N₂ system, the oxidation of NO to NO₂ is dramatically promoted. At 523 K, with the increase of the energy density, NO conversion increases rapidly first, and then almost stabilizes at 93–91% of NO conversion with 61–55% of NO₂ selectivity in the energy density range of 317–550 J L⁻¹. It finally decreases gradually at high energy density. A negligible amount of N₂O is formed in the above four systems. Of the four systems studied, NO conversion and NO₂ selectivity of the NO/C₂H₄/O₂/N₂ system are the highest, and NO/O₂/C₂H₄/N₂ system has the lowest electrical energy consumption per NO molecule converted.     

KCl-KBO2-K2CO3, K2MoO4-KBO2-K2CO3, and K2WO4-KBO2-K2CO3 ternary systems

phase diagrams of KCl-KBO₂-K₂CO₃, K₂MoO₄-KBO₂-K₂CO₃, and K₂WO₄-KBO₂-K₂CO₃ ternary systems were studied by a calculation-experimental method and differential thermal analysis (DTA). The coordinates of ternary eutectics were determined to be E ₁: 622°C, 8.5 mol % KBO₂, 56.5 mol % KCl, and 35 mol % K₂CO₃; E ₂: 710°C, 23 mol % KBO₂, 43 mol % K₂CO₃, and 34 mol % K₂MoO₄; E ₃: 710°C, 23 mol % KBO₂, 43 mol % K₂CO₃, and 34 mol % K₂WO₄. The specific heats of melting of the eutectics were determined.     

Fluorine sites in glasses and transparent glass-ceramics of the system Na2O/K2O/Al2O3/SiO2/BaF2

The transparent glass-ceramics obtained in the silicate system Na₂O/K₂O/SiO₂/BaF₂ show homogeneously dispersed BaF₂ nano crystals with a narrow size distribution. The X-ray diffraction and the nuclear magnetic resonance spectroscopy were applied to glasses and the respective glass-ceramics in order to clarify the crystallization mechanism and the role of fluorine during crystallization. With an increasing annealing time, the concentration and also the number of crystals remain approximately constant. With an increasing annealing temperature, the crystalline fraction increases until a saturation limit is reached, while the number of crystals decreases and the size of the crystals increases. Fluoride in the glassy network occurs as Al-F-Ba, Al-F-Na and also as Ba-F structures. The latter are transformed into crystalline BaF₂ and fluoride is removed from the Al-F-Ba/Na bonds. However, some fluorine is still present in the glassy phase after the crystallization.