ZnCr2O4/ZSM-5@Silicalite-1优化CO2一步法加氢制芳烃反应选择性

本研究采用外延生长方法制备出核壳结构分子筛ZSM-5@Silicalite-1。相关表征结果显示,惰性Silicalite-1壳层均匀包覆在ZSM-5的外表面,调控了分子筛酸性质,特别是降低了外表面酸性,有利于改善芳烃分布。将ZSM-5@Silicalite-1与Zn-Cr氧化物耦合应用于二氧化碳加氢制芳烃的反应,轻质芳烃（苯、甲苯、二甲苯）在总芳烃中的占比从ZnCr₂O₄/ZSM-5耦合体系的14.8%显著提高到33.5%。此外,Silicalite-1壳层的疏水性还可有效抑制逆水煤气变换副反应,降低CO的选择性。在优化的壳层厚度下,ZnCr₂O₄/ZSM-5@Silicalite-1耦合体系的芳烃时空收率较ZnCr₂O₄/ZSM-5体系提高了22%。     

ZnCr2O4/ZSM-5@Silicalite-1优化CO2一步法加氢制芳烃反应选择性

本研究采用外延生长方法制备出核壳结构分子筛ZSM-5@Silicalite-1。相关表征结果显示,惰性Silicalite-1壳层均匀包覆在ZSM-5的外表面,调控了分子筛酸性质,特别是降低了外表面酸性,有利于改善芳烃分布。将ZSM-5@Silicalite-1与Zn-Cr氧化物耦合应用于二氧化碳加氢制芳烃的反应,轻质芳烃(苯、甲苯、二甲苯)在总芳烃中的占比从 ZnCr₂O₄/ZSM-5耦合体系的14.8%显著提高到33.5%。此外,Silicalite-1壳层的疏水性还可有效抑制逆水煤气变换副反应,降低CO的选择性。在优化的壳层厚度下,ZnCr₂O₄/ZSM-5@Silicalite-1耦合体系的芳烃时空收率较ZnCr₂O₄/ZSM-5体系提高了22%。     

Asymmetric Synthesis of Chromans Through Bifunctional Enamine-Metal Lewis Acid Catalysis

Cooperative enamine-metal Lewis acid catalysis has emerged as a powerful tool to construct carbon-carbon and carbon-heteroatom bond forming reactions. A concise synthetic method for asymmetric synthesis of chromans from cyclohexanones and salicylaldehydes has been developed to afford tricyclic chromans containing three consecutive stereogenic centers in good yields (up to 87 %) and stereoselectivity (up to 99 % ee and 11 : 1 : 1 dr). This difficult organic transformation was achieved through bifunctional enamine-metal Lewis acid catalysis. It is believed that the strong activation of the salicylaldehydes through chelating to the metal Lewis acid and the bifunctional nature of the catalyst accounts for the high yields and enantioselectivity of the reaction. The absolute configurations of the chroman products were established through X-ray crystallography. DFT calculations were conducted to understand the mechanism and stereoselectivity of this reaction.     

DNA‐Based Hybrid Catalysts for Asymmetric Organic Synthesis

Stereoselective hybrid systems based on metal‐assisted catalysis with a chiral biomacromolecule form an attractive research area for the synthesis of enantiomerically pure compounds. Although various methods are available for this purpose, most rely on the use of enzymes, proteins, or RNA. The application of DNA‐based hybrid catalysts for enantioselective synthesis emerged only a few years ago. DNA‐based hybrid catalysts have been self‐assembled from DNA and a metal complex with a specific ligand through supramolecular or covalent anchoring strategies and have demonstrated high stereoselectivity and rate enhancement in Lewis acid catalyzed reactions, such as Diels–Alder, Michael addition, and Friedel–Crafts reactions. For these reactions, cheap and commercially available salmon testes DNA has generally been used. In this Minireview, we summarize recent developments in the area of asymmetric catalysis with DNA‐based hybrid catalysts.     

In改性Mo/HZSM-S催化剂上的甲烷芳构化反应性能

Dehydrogenation and aromatization of methane over Mo/HZSM-5 catalyst without adding oxygen were widely studied［1～3］. However, the existing problem of this route is the low yield of aromatics, owing to the high stability of methane. Recently, the introduction of the second metal species was believed to be a promising route to improve non-oxidative transformation of methane over Mo/HZSM-5 catalyst[4-7].     

钼源对钼基催化剂芳构化性能的影响

 采用乙酸回流MoO3的方法制备了MoAC, 以其为钼源分别制备了Mo/HMCM-22, Mo/HMCM-49和Mo/HZSM-5催化剂,并考察了各催化剂在甲烷无氧芳构化反应中的催化性能. 结果表明,以MWW型分子筛(HMCM-22和HMCM-49)为载体时,催化剂的芳烃收率和催化剂稳定性均比传统浸渍法制备的催化剂明显提高; 而以HZSM-5为载体时,催化剂的甲烷无氧芳构化活性无明显变化.     

CuCl/沸石双功能羰基化催化剂催化合成叔碳酸

Bifunctional carbonylation catalysts were prepared by introducing both of acidic and metallic sites into zeolites, such as β, M and Y, by which tertiary butyl acid was synthesized under mild reaction conditions. The effects of reaction temperature and the copper amount as well as the acid strength on the catalytic activity were investigated. The results show that when the content of cuprous for β, M and Y are 2 35%, 2 48% and 7 13% respectively, the carbonylation activity of the related sample is the greatest. In the reaction temperature range, lower temperature is favorable for yielding acid and higher temperature is favorable for yielding ester. The catalytic activity increases with the increase of the acid strength. The in situ FT IR study shows that Cu(Ⅰ) is the metallic active site.     

金属氧化物改性的HZSM-5上甲苯与甲醇的烷基化反应

 考察了La2O3,MgO以及La2O3-MgO复合改性的HZSM-5催化剂的孔结构、表面酸性和吸附性能,以及它们在甲苯与甲醇烷基化反应中的催化性能. 未经改性的HZSM-5上甲苯甲基化反应产物组成为热力学平衡组成,而改性后的催化剂上目标产物对二甲苯选择性提高,但反应活性下降. La2O3改性使HZSM-5孔径缩小,孔道变窄,强酸和弱酸酸量均降低,目标产物选择性明显提高; MgO主要分布在沸石外表面和孔口,因而MgO改性的HZSM-5孔口尺寸稍有缩小,另外强酸酸量减少,弱酸酸量略有上升,对二甲苯选择性略有提高; 而La2O3-MgO复合改性的催化剂上对二甲苯选择性显著提高,达到93%. 结果表明,反应的对位选择性是孔径和表面酸性同时调变的结果,孔径效应比酸性分布对催化剂的对位选择性影响更大.     

Mo/HZSM-5催化剂上甲烷无氧芳构化反应——HZSM-5分子筛脱铝的影响

采用两种不同的脱铝方法对HZSM-5分子筛进行了预处理,并利用MAS NMR和吸附吡啶的FT-IR对分子筛的结构和酸性质进行了表征,考察了分子筛的脱铝程度对Mo基催化剂上甲烷芳构化反应性能的影响.结果表明,HZSM-5分子筛的酸性过强或B酸量不足,均会导致催化剂严重积炭,但积炭成因不同.母体HZSM-5分子筛上的强B酸中心的存在可促使催化剂上反应中间物种深度脱氢,造成催化剂在反应过程中严重积炭.经水热处理的HZSM-5分子筛,骨架铝脱出严重,造成B酸活性中心不足以及部分微孔阻塞,不利于C2中间物种芳构化,导致芳烃选择性显著降低.经高温N2处理的HZSM-5分子筛,骨架铝脱出相对缓和,在消除母体分子筛上强B酸中心的同时,保留了较多的弱B酸中心,既可满足C2中间物种芳构化反应的需要,又可有效抑制催化剂积炭,导致甲烷芳构化反应性能显著改善.     

乙烷添加对 Mo/HZSM-5 催化剂上甲烷芳构化反应的影响

 研究了乙烷添加对 Mo/HZSM-5 催化剂上甲烷芳构化反应性能的影响. 在所考察的反应条件下, 未观察到乙烷添加对甲烷转化的促进作用, 乙烷本身反而生成甲烷, 同时导致更高的积炭生成速率, 使 Mo/HZSM-5 催化剂更快地失活. 但添加乙烷加速了钼活性中心的形成, 缩短了芳构化反应的诱导期, 使苯的生成提前.     

ZSM-5分子筛骨架铝落位对甲醇转化制芳烃催化性能影响

采用水热合成法,在合成过程中通过添加矿化剂、尿素和改变硅源,制备了不同骨架铝落位的ZSM-5分子筛。通过SEM、XRD、BET、XRF、MAS NMR、NH_3-TPD和Py-FTIR等表征手段对分子筛的形貌、织构、骨架铝落位和酸性进行了系统研究,同时考察了不同ZSM-5分子筛催化剂甲醇制芳烃的催化性能。研究结果表明,制备的ZSM-5分子筛均具有结晶度高和形貌均一等特点,但在骨架铝落位和酸性方面存在显著差异。椭球状ZSM-5分子筛的骨架铝主要分布于直通孔道或正弦孔道中,并表现出较多的酸性位。块状分子筛中骨架铝主要落位在孔道交叉处,且具有较低的强酸量。在甲醇制芳烃反应中,骨架铝主要位于直通或正弦孔道并表现出较多酸性位的椭球状ZSM-5分子筛催化剂具有较高的活性稳定性和芳烃选择性。     

纳米HZSM-5催化剂催化烃类转化反应

制备了纳米(20~50 nm)HZSM-5催化剂, 用XRF, TEM和NH3-TPD等手段对催化剂进行了表征. 以正辛烷及苯和正辛烷混合物的转化为模型反应, 研究了单烃和混合烃在纳米HZSM-5催化剂上的转化行为, 考察了反应条件对产物分布的影响. 结果表明, 纳米HZSM-5沸石催化剂具有很强的烃类转化能力, 烃类通过芳构化、 异构化和烷基化等反应转化为高辛烷值的异构烷烃和芳烃, 产物中异构烷烃(C4~C6)和芳烃的质量分数超过90%. 直链烷烃转化为芳烃以生成苯环为主, 混合烃转化为芳烃以苯和小分子烃的烷基化为主. 控制反应条件可抑制苯和C+9芳烃的生成. 产物分析结果表明, 烃类在纳米HZSM-5催化剂上的裂解、芳构化和异构化等遵循正碳离子机理.     

Reversible Nature of Coke Formation on Mo/ZSM‐5 Methane Dehydroaromatization Catalysts

Non‐oxidative dehydroaromatization of methane over Mo/ZSM‐5 zeolite catalysts is a promising reaction for the direct conversion of abundant natural gas into liquid aromatics. Rapid coking deactivation hinders the practical implementation of this technology. Herein, we show that catalyst productivity can be improved by nearly an order of magnitude by raising the reaction pressure to 15 bar. The beneficial effect of pressure was found for different Mo/ZSM‐5 catalysts and a wide range of reaction temperatures and space velocities. High‐pressure operando X‐ray absorption spectroscopy demonstrated that the structure of the active Mo‐phase was not affected by operation at elevated pressure. Isotope labeling experiments, supported by mass‐spectrometry and ¹³C nuclear magnetic resonance spectroscopy, indicated the reversible nature of coke formation. The improved performance can be attributed to faster coke hydrogenation at increased pressure, overall resulting in a lower coke selectivity and better utilization of the zeolite micropore space.     

Catalytic Acylation of Ethylidenecyclohexane over Zeolite Catalysts

Beak et al[1 ] reported that the acylation of ethylidenecyclohexane( EDC) using zincchloride as a catalyst gave 3 -( 1 -cyclohexenyl) -2 -butanone( CHB) in good yield.However,it is pity that they provided only little information about reaction conditions,and no information on comparison of activities of various catalysts. Itis well known thatconventional Zn Cl2 catalyst leads to a great number of environmental pollution,whichcould be mainly overcome by use of the solid catalysts as we have …     

Fe/MnO-ZnZSM-5双功能催化剂上合成气直接转化为芳烃的反应

 探讨了Fe／MnO－ZnZSM－5（n（SiO2）／n（Al2O3）＝50）双功能催化剂上合成气直接转化为芳烃的反应，考察了反应温度和Zn载量对CO转化率及芳烃选择性的影响．结果表明，Fe／MnO－ZnZSM－5具有良好的合成气芳构化性能，在V（CO）∶V（H2）∶V（Ar）＝3∶6∶1，SV＝1600h－1，p＝1．1MPa，T＝543K的条件下，CO转化率可达到98．1％，芳烃产物选择性可高达53．1％．催化剂经60h运转后，CO转化率仅降低0．5％，显示了良好的稳定性和应用前景．     

不同载体成型的 Mo/ZSM-5 催化剂上甲烷无氧芳构化反应

 以不同氧化物为载体, 通过挤条成型法制备了 Mo/ZSM-5 催化剂, 考察了其催化甲烷无氧芳构化反应性能. 采用吸附吡啶红外光谱、氨程序升温脱附和氢程序升温还原等方法对催化剂进行了表征. 结果表明, ZnO 的添加使催化剂的强酸量减少, 强 B 酸比例降低, Mo 物种还原能力提高, 因而催化剂表现出较高的甲烷芳构化活性和较低的积炭选择性.     

HZSM-5分子筛中邻近酸中心上的协同催化作用

总结了HZSM-5分子筛中邻近的酸中心协同催化作用的研究进展, 包括布朗斯特酸(B酸)和路易斯酸 (L酸)的协同催化、 B酸和B酸的协同催化作用. 综述了通过多种表征手段下协同催化作用机理的研究进展, 以及实验与理论计算相结合并相互验证的研究结果, 对邻近酸中心协同作用下反应分子的共同吸附、 活化与转化路径的特点进行了分析与总结, 提出了对邻近酸中心协同催化作用进行深入研究的关键科学问题和可能的解决方案.     

多级结构ZSM-5沸石分子筛的合成及其Mo基催化剂在甲烷无氧脱氢芳构化中的应用

以经盐酸预处理的碳纳米管为第二模板,在不添加其它有机溶剂的情况下,仅通过控制晶化条件,即采用变温水热晶化法合成具有多级结构的ZSM-5分子筛.通过x射线衍射、红外光谱测试、透射电镜和N2吸附对合成的分子筛进行了表征,结果表明,该合成分子筛呈近球形,是由纳米棒自组装形成的具有多级结构的亚微米球.该分子筛改性后用于甲烷无氧脱氢芳构化反应,显示出良好的催化性能,甲烷转化率最初达到19%,反应至24 h时甲烷转化率仍保持在10%左右,并且保持了较高的芳香物选择性(达到50%以上).