Cu/Mn/Ni/ZrO2合成低碳醇催化剂组分作用的初步研究

针对Cu/Mn/Ni/ZrO2合成低碳醇催化剂的独特反应行为,制备了一系列模型催化剂以考察各组元的作用.结果表明,Cu是主要的合成醇类产物的活性组分,镍是催化剂上促进碳链增长的重要元素,同时也可使异丁醇的生成在较为温和的反应条件下进行.氧化锆既起载体的作用,也是合成异丁醇的主要活性组元.同时组元的相互组合也是催化剂合成不同种类醇产物的重要保证,Mn通过保证Ni、Cu等其它组元的高度分散,提高了催化剂的活性,并且避免了过量的甲烷等烃类的产生以及甲醇成为主要产物,同时Mn的存在还可能促进Ni与ZrO2的作用,使得生成异丁醇的反应在较温和条件下就可以发生.     

沉淀方法对FeMnCu/ZnO合成低碳醇催化剂性能的影响

以分步连续沉淀法和共沉淀法制备了一系列FeMnCu/ZnO复合氧化物合成低碳醇催化剂，对其CO加氢合成低碳混合醇的反应性能进行了考察，并用ICP、XRD、BET、H2-TPR对其结构进行了表征。结果表明，沉淀方法不同对催化剂的催化性能有较大的影响。在T503K、P=8.0MPa，GHSV=8000h－1，H2/CO＝2(体积比)的条件下, 分步沉淀法制备的FeMnCu/ZnO催化剂醇的收率和C2+OH的质量分数均高于共沉淀法制备的催化剂。其中“Fe atop Cu”催化剂醇的收率最高，达到0.26g/mLcat·h，同时“Fe atop Cu”催化剂C2+OH的质量分数也最高，可达31.72%。XRD研究表明，分步沉淀法制备的催化剂促进了CuO和ZnO的分散，提高了催化剂的催化性能。BET测试结果表明，分步沉淀法有扩孔的作用，有利于长链醇的生成。TPR研究发现，共沉淀法制备的催化剂Cu物种较难还原，这是共沉淀催化剂合成醇性能较低的原因之一。     

K改性β-Mo2C催化剂CO加氢合成低碳混合醇的研究

制备系列K改性的β-Mo2C催化剂并对其CO加氢合成低碳混合醇性能进行了考察。结果表明，K改性使β-Mo2C催化剂的CO加氢选择性发生显著变化。β-Mo2C催化剂CO加氢的产物主要为C1～C4烷烃,经K改性后β-Mo2C催化剂上产物主要为C1～C5低碳醇，其中高级醇(C2+OH)选择性可达到33.78%。通过对碱金属质量分数的考察发现，当K/Mo（原子比）为0.2时，总醇选择性达到最大值，低碳醇的时空收率达到0.12 g/（mL·h－１）。β-Mo2C催化剂上醇烃产物均符合线性Anderson-Schultz-Flory（A-S-F）分布曲线，而K改性β-Mo2C催化剂上醇产物为独特的甲醇负偏离A-S-F分布。可见，K助剂的加入有效促进了低碳醇的形成，尤其是促进了C1OH到C2OH的链增长步骤。     

焙烧温度对K-Cu/Zn/La/ZrO2催化剂上异丁醇合成的影响

采用共沉淀法制备了Cu/Zn/La/ZrO₂催化剂,并浸渍K对其进行改性.以合成气合成异丁醇为探针反应,考察了焙烧温度对K-Cu/Zn/La/ZrO₂催化剂合成反应的影响.采用XRD、TG、BET、NH₃-TPD、H₂-TPR、Raman及XPS等手段表征了催化剂的结构和表面性质.结果表明,催化剂体相结构、比表面积与其催化活性没有直接关系;催化剂表面强酸中心的存在不利于异丁醇的生成;Cu-Zn-Zr活性组分间协同作用对催化剂活性影响很大,450 ℃焙烧温度下,Cu-Zn-Zr活性组分间协同作用最强,CuO最容易还原,催化活性最高,此时CO的转化率(物质的量)达到69.47%,醇中异丁醇的选择性(质量分数)为19.09%,甲醇+异丁醇的选择性(质量分数)为95.02%.     

铁的添加方式对Cu-Mn/ZrO2合成低碳醇催化剂的影响

采用浸渍和共沉淀两种方法制备了Fe/Cu/Mn/ZrO2催化剂,考察了Fe的添加方式对催化剂反应性能的影响,发现添加方式的不同使催化剂的整体性能有较大的改变,在温和条件下,浸渍法制备的催化剂醇的时空收率可达0.26g/mL*h,其中C2+OH的选择性约为22%,产物以直链醇为主,催化剂的活性和选择性均高于同等Fe浓度的共沉淀催化剂.用EXAFS研究了催化剂的表面状况,发现浸渍法制备催化剂促进了Cu的高度分散,从而提高了催化剂的催化性能.     

还原温度对Co-La-Zr／AC催化剂合成气制高碳混合醇性能的影响

采用共浸渍法制备了Co-La-Zr/AC催化剂并考察了不同温度还原的催化剂的CO加氢催化性能. 结果表明,在3.0 MPa, 495 K, H2/CO(V/V)=2和GHSV=500 h-1 条件下,经703 K还原的催化剂, CO的转化率和醇的选择性分别为59.1%和42.0%, 其中C6～C18 的高碳醇在总醇中占到50.4%. XRD结果显示,反应后催化剂的主要物相为金属态的钴和碳化钴(Co2C). 还原温度可影响催化剂中钴的晶粒分散度和碳化钴的生成. 碳化钴的形成可能在合成气生成醇类的反应中起重要作用.     

制备高效稳定CO2重整甲烷Ni/ZrO2催化剂的新方法

 用超临界乙醇干燥ZrO(OH)2醇凝胶,可以制备出高效稳定的纳米复合型CO2重整甲烷Ni/ZrO2-AS催化剂; 在常压流动N2中加热处理ZrO(OH)2醇凝胶制备ZrO2前体,同样可以得到高效稳定的纳米复合型Ni/ZrO2-AN催化剂. 在270~650 ℃范围内改变ZrO(OH)2醇凝胶的热处理温度,对最终的Ni/ZrO2-AN催化剂的性能影响不大. 用这种方法制备纳米复合型Ni/ZrO2催化剂避免了复杂的超临界工艺,从而容易获得实际应用.     

Mn改性Ni/K/MoS2合成低碳醇催化剂反应性能研究

以不同的添加方式在Ni/K/MoS2催化剂中加入Mn助剂，考察其合成醇反应性能。结果表明，Mn/Ni/K/MoS2催化剂具有较好的合成低碳混合醇反应性能。共沉淀法以醋酸锰为前驱体加入0.6%的Mn助剂后，C2+含量，醇时空产率及选择性均明显提高;分步沉淀法使Mn的加入量增加到0.6%，醇时空产率明显增加。以浸渍法按化学计量加入Mn助剂考察其含量对催化剂合成醇性能的影响，当Mn/Mo（原子比）为1∶时，反应条件为315 ℃, 9.5 MPa, 6 000 h－1，醇时空产率和醇选择性分别达到最高值0.338?g/mL·h和69.6%。300 h的稳定性测试结果表明，共沉淀法改性的催化剂具有良好的稳定性。     

Ni/C催化剂上山梨醇氢解反应中碱对乳酸形成的影响

山梨醇是重要的生物基平台化合物,其选择加氢裂解制备乙二醇和1,2-丙二醇等低碳二元醇,是一个具有重要科学意义和应用前景的催化过程.山梨醇氢解反应涉及C-C键和C-O键等化学键的裂解,裂解选择性尤为关键.通常情况下,添加NaOH,KOH,Ca(OH)2,CaO和Ba(OH)2等碱性物质可增加糖醇转化率和二元醇选择性,但也会生成大量乳酸等副产物.研究乳酸的生成途径,探索抑制乳酸生成的方法,对于提高山梨醇加氢裂解制备低碳二元醇的选择性具有重要意义.本文以Ni/C催化剂上山梨醇加氢裂解反应为模型反应,研究了碱性化合物添加剂类型及其用量对乳酸生成的影响.根据加氢裂解机理分析可知,糖醇氢解主要涉及以下关键步骤:在碱的存在下,多元醇在金属催化剂上发生脱氢反应生成相应的羰基中间体;然后,羰基中间体在碱性介质中通过逆羟醛缩合反应,发生C-C键断裂.因此,在糖醇氢解反应和C-C键断裂中,添加碱性化合物将会不可避免地生成乳酸.结果表明,以NaOH和Ca(OH)2为添加剂时,山梨醇加氢裂解生成乳酸的选择性分别为15.1％和8.9％.而以La(OH)3为添加剂时,生成乳酸的选择性仅为0.1％.以Ca(OH)2和La(OH)3为添加剂时反应具有高活性,山梨醇转化率均可达到99％以上.分别以Ca(OH)2和La(OH)3为添加剂,研究了碱性添加剂用量对山梨醇氢解反应的影响.结果表明,以Ca(OH)2为添加剂时,山梨醇转化率和乳酸选择性均随着Ca(OH)2用量增加而增加;当OH-投料量为11.06 mmol时,乳酸选择性可达11.7％.而以La(OH)3为添加剂时,即使La(OH)3用量仅为0.08 mmol时,山梨醇转化率也可高达99％;继续增加La(OH)3用量,对乳酸的选择性影响不大;当OH-投料量为11.06 mmol时,乳酸选择性也只有0.3％.对山梨醇加氢裂解反应分析可知,与Ca(OH)2相比,La(OH)3添加剂可使C2和C4产物的总选择性从20.0％增加到24.5％.上述结果表明La(OH)3可高效促进山梨醇加氢转化.为了探索Ca(OH)2或La(OH)3为添加剂时山梨醇加氢裂解产物分布不同的本质原因,以Ni/C催化剂催化的丙酮醛加氢转化为探针反应,探讨了乳酸形成的可能路径.结果表明,丙酮醛可能是山梨醇氢解反应的关键中间体之一.在仅以Ni/C催化加氢时,丙酮醛容易被转化为1,2-丙二醇;当只存在碱性添加剂时,丙酮醛可发生重排并被转化为乳酸主产物,这可能是乳酸生成的主要原因.进一步研究表明,以Ca(OH)2为添加剂时,乳酸选择性是以La(OH)3为添加剂时的1.9倍.在Ni/C催化剂和碱性添加剂共存时,由于碱性添加剂的区别,则会得到不同选择性的1,2-丙二醇和乳酸.结果表明,通过丙酮醛催化加氢可得到1,2-丙二醇,也可以通过重排反应生成乳酸;这两类反应是竞争性的.在山梨醇氢解反应中,以Ca(OH)2为添加剂时,加氢反应和重排反应均可发生.而以La(OH)3为添加剂时,丙酮醛加氢反应占主导,仅生成微量乳酸.该研究对提高山梨醇催化加氢裂解选择性具有参考意义.     

碳纳米管促进的Co-Mo-K硫化物基催化剂用于合成气制低碳混合醇

 以自行制备的多壁碳纳米管(CNT)作为添加剂,制备共沉淀型CNT促进的Co-Mo-K硫化物基催化剂. 实验发现,与未添加CNT的催化剂相比,添加少量CNT可显著提高CO的加氢转化活性和生成低碳醇的选择性. 在5.0 MPa, 623 K, V(CO)∶V(H2)∶V(N2)=45∶45∶10, GHSV=3600 ml/(g·h)的反应条件下, Co1Mo1K0.3-10%CNT催化剂上CO的转化率达21.6%, 相应的总醇(C1～4醇)时空产率为241.5 mg/(g·h), 产物中C2+醇/C1醇=1.39 (C基选择性比). 添加少量CNT并不会导致Co1Mo1K0.3硫化物基催化剂上CO加氢反应表观活化能发生明显变化,但却导致工作态催化剂表面催化活性Mo物种(Mo4+)的摩尔百分率有所提高; 另一方面, CNT促进的催化剂对H2有更强的吸附活化能力,并能在相当大程度上抑制水煤气变换副反应的发生. 这些因素有利于提高催化剂的活性和选择性.     

Solvent extraction separation of In/III/-Tl/III/ and Hg/II/-Cd/II/-Co/II/ with sulphoxides

Solvent extraction studies have been made on some metals: In/III/-Tl/III/ and Hg/II/-Cd/II/-Co/II/, from ammonium thiocyanate solutions by dialkyl sulphoxides. Separation of these metals from one another can be achieved by suitable choice of the extracted conditions. The nature of the extractable metal species has been elucidated.     

Synthesis of chlorobis/β-diketonato/oxotechnetium/V/ and tris/β-diketonato/technetium/III/ complexes

Chlorobis/-diketonato/ oxotechnetium/V/ complexes [TcOCl/-dik/₂, -diketone=acetylacetone, benzoylacetone and dibenzoylmethane] were newly synthesized using macroamount of⁹⁹Tc. These complexes were further separated into geometrical isomers. Furthermore, an improvement of the yields for the syntheses of tris/-dike-tonato/technetium/III/ complexes [Tc/-dik/₃, -diketone=acetylacetone, benzoylacetone and 2-thenoyltrifluoroacetone] was examined using Tc/III/-thiourea complexes as a starting material.     

Simultaneous propane dehydrogenation andco2hydrogenation overCrOx/SiO2catalyst

Summary Single reverse water-gas shift (RWGS) and dehydrogenation of propane with CO₂(DH-CO₂) reactions in the presence and absence of the CrO_x/SiO₂ catalyst have been studied between 673 and 873 K. It was found that the CrO_x/SiO₂ catalyst is active both in the dehydrogenation of propane and in the RWGS reactions. The obtained results suggest that the dehydrogenation of propane to propene in the presence of CO₂on CrO_x/SiO₂can be facilitated by the RWGS reaction.</o:p>     

Direct synthesis of dimethyl carbonate ?from CH3OH AND CO2 by H3PW12O40/CexTi1-xO2 catalyst

Summary Ce_xTi_1-xO₂ and H₃PW₁₂O₄₀/Ce_xTi_1-xO₂ catalysts were prepared using a sol-gel method, and applied to the direct synthesis of dimethyl carbonate from methanol and carbon dioxide. H₃PW₁₂O₄₀/Ce_xTi_1-xO₂ showed a better catalytic performance than the corresponding Ce_xTi_1-xO₂, due to the bifunctional catalysis of Br?nsted acid sites (provided by H₃PW₁₂O₄₀) and base sites (provided by Ce_xTi_1-xO₂). H₃PW₁₂O₄₀/Ce_0.1Ti_0.9O₂ showed the highest catalytic performance among the H₃PW₁₂O₄₀/Ce_xTi_1-xO₂ catalysts.     

An investigation of the promotional effect of propylene or propane traces on the activity of sulfatedPt/g-Al2O3andPt-Sn/g-Al2O3inCH4combustion

Summary A strong promoting effect of the presence of C₃H₈or C₃H₆was determined for the combustion of CH₄in excess oxygen, over pre-sulfated 1%Pt/g-Al₂O₃and pre-sulfated 1%Pt-2%Sn/g-Al₂O₃catalysts.</o:p>     

Crystal structure of Na3PO4 · 12H2O

The crystal structure of trisodium monophosphate hemihydrate was determined. The space group is $\text{C2}\text{c}$ and a unit cell contains eight formula units. The unit cell dimensions of $\text{Na}{}_3\text{PO}{}_4\text{·}\text{1}\text{2}\text{H}{}_2\text{O}$ are a = 9.631(3), b = 5.416(2), c = 16.938(8) Å, β = 102.60(5)°. The final R value is 0.027 for a set of 1430 independent reflections. This atomic arrangement is mainly a three-dimensional network of distorted NaO₆ octahedra. The hydrogen bonding scheme is given.     

LixNi0.8-yCo0.2ZnyOp的合成及电化学性能研究

A series of single-phase Li_xNi_0.8-yCo_0.2Zn_yO_p(0.96 ≤x≤ 1.10， 0 ≤y≤ 0.05， 2 ≤p≤ 2(1+y) ) (different in the y values) were synthesized by a two-step solid state reaction method， in which LiOH·H₂O， Zn-doped spherical Ni(OH)₂ and Co₂O₃ were used as the precursors. The ICP-AES analyses proved that the Zn-doped compounds synthesized had the nonstoichiometric form. The results of the XRD， SEM identified that the uniform particles of the as-prepared materials having a good layered structure were fine， narrowly distributed and well crystallized. The electrochemical performance test was carried out and the results showed that the as-prepared Zn-doped materials had not only a high capacity， but also a better cycling stability characterization than the un-doped one. The Li_1.06Ni_0.75Co_0.22Zn_0.03O_2.03 material has an initial reversible capacity as high as 160.5mAh·g^-1; and a first discharge efficiency 89.2%， and exhibits satisfactory cyclic stability with 90% retainable capacity after 50 cycles.     

Visible light-sensitive yellow TiO2−xNx and Fe-N co-doped Ti1−yFeyO2−xNx anatase photocatalysts

Nitrogen substituted yellow colored anatase TiO_2−xN_x and Fe-N co-doped Ti_1−yFe_yO_2−xN_x have been easily synthesized by novel hydrazine method. White anatase TiO_2−δ and N/Fe-N-doped samples are semiconducting and the presence of ESR signals at g ∼1.994-2.0025 supports the oxygen vacancy and g∼4.3 indicates Fe³⁺ in the lattice. TiO_2−xN_x has higher conductivity than TiO_2−x and Fe/Fe-N-doped anatase and the UV absorption edge of white TiO_2−x extends in the visible region in N, Fe and Fe-N co-doped TiO₂, which show, respectively, two band gaps at ∼3.25/2.63, ∼3.31/2.44 and 2.8/2.44 eV. An activation energy of ∼1.8 eV is observed in Arrhenius log resistivity vs. 1/T plots for all samples. All TiO₂ and Fe-doped TiO₂ show low 2-propanol photodegradation activity but have significant NO photodestruction capability, both in UV and visible regions, while standard Degussa P-25 is incapable in destroying NO in the visible region The mid-gap levels that these N and Fe-N-doped TiO₂ consist may cause this discrepancy in their photocatalytic activities.     

Synthesis and characterization of Ti1−2xNbxNixO2−x/2 solid solutions

Doped-rutile has been traditionally used in ceramic pigments for its intense optical properties. In this paper, we compare the classical ceramic synthesis of Ti_1−2xNb_xNi_xO_2−x/2 system with the sol-gel methodology, which allows a reduction of the anatase-rutile transformation temperature. The composition was optimised in order to obtain a unique rutile phase with the minimum amount of pollutant Ni(II) and enhanced chromatic coordinates. Incorporation of the doping ions in the rutile structure was corroborated by XRD and Rietveld refinements. The species responsible for the colour mechanism were studied by different techniques. UV-VIS spectroscopy showed the characteristic features of Ni²⁺ ions, whose existence was corroborated by EPR and magnetic measurements. From these results, (Ni,Nb)doped-TiO₂ powder samples can be now shaped as thin films, monoliths, etc. by using sol-gel methodology without modifying their properties. This study introduces new possibilities of coloured TiO₂-based solid solutions in new combined advanced applications (colouring agent and photocatalyst, etc.).     

Carbon black and propylene oxidation over Ru/CoxMgyAl2Oz catalysts

The effects of Co_xMg_yAl₂O_z mixed oxides composition and ruthenium addition on the oxidation of propylene and carbon black (CB) were investigated. Different reactive cobalt and ruthenium oxide species were formed following calcination at 600 °C. The addition of ruthenium was beneficial for the CB oxidation under “loose contact” conditions and for propylene oxidation when the cobalt content was intermediate to low. The calculated activation energy for CB oxidation was decreased from 151 kJ mol⁻¹ for the uncatalyzed reaction to 111 kJ mol⁻¹ over the best catalyst.