贵金属对钴基催化剂上肉桂醛选择加氢反应的影响

 研究了贵金属改性的Co／γ－Al2O3催化剂上的肉桂醛选择加氢反应．结果表明，通过Pt，Pd和Ru贵金属改性，提高了催化剂的活性，但只有Pt改性的催化剂具有较高的选择性．w（Pt）＜0．5％时，催化剂的活性随着Pt含量的增加呈直线升高，当w（Pt）＝0．5％时，催化剂活性可提高近5倍，但催化剂的选择性变化很小．XRD结果表明，催化剂经还原后，γ－Al2O3上的钴主要为α－Co0．TPR结果表明，Pt的加入提高了Co3O4的还原性能，且Pt含量越高，Co3O4的还原温度越低．XPS结果表明，Pt改性的催化剂样品，其Co3O4大部分被还原为Co0．由于Pt与Co具有协同效应，故Pt改性的Co／γ－Al2O3催化剂既具有较高的活性，又具有很高的选择性．     

Ni/CaO-SiO2对流化床反应器中甲烷转化制合成气的催化性能

用浸渍法制备了Ni／SiO2和Ni／CaO—SiO2催化剂．研究了流化床反应器中用CaO改性微球硅胶载体对催化性能的影响，考察了Ni／CaO—SiO2催化剂上甲烷部分氧化与甲烷二氧化碳重整耦合制合成气反应中Ca负载量、反应温度、空速和原料气中的O2／CO2比对活性与选择性以及产物H2／CO比的影响。并用XRD、TEM、H2-TPR和CO2-TPD等测试手段对催化剂进行了表征。结果表明，经过氧化钙改性的微球硅胶能够将“自由态”的镍物种转变为“束缚态”。使镍物种达到高度分散状态。引入10(wt)％Ca助剂所制备的催化剂具有很好的活性和稳定性，因而具有较好的工业应用前景。     

Pd(Ni)对铜基催化剂的调变及对顺酐选择性加氢产物的调控

 考察了在Cu－Ti－Al－O催化剂中添加Pd（或Ni）对活性中心Cu的调变作用及对顺酐加氢产物的调控．结果表明，Cu－Ni－Ti－Al－O是优良的顺酐选择性加氢制γ－丁内酯（GBL）反应的催化剂，催化剂中Cu和Ni含量的改变会影响加氢深度．当Cu含量较Ni含量高时，可以得到第三步加氢产物1，4－丁二醇和四氢呋喃，在270℃下其选择性为17．3％；当Ni含量较Cu含量高时，GBL选择性可达到100％．添加微量的Pd后，可加速活性组分Cu的还原，使Cu的还原更加彻底，获得纳米尺寸更小和晶格畸变率更大的Cu0晶粒，使顺酐第三步加氢产物的选择性显著提高．使用Cu－Pd－Ti－Al－O（n（Pd）／n（Cu）＝0．08％）催化剂，在240℃下顺酐转化率为100％，1，4－丁二醇与四氢呋喃选择性为38．5％．     

FCC抗重金属催化剂的研究进展

20世纪80年代以来，随着世界原油日趋重质化和劣质化，各国炼厂都大力发展掺炼或全炼重油和渣油的流化催化裂化（FCC）技术，以拓宽FCC原料油来源，满足全球市场对轻质油品的需求，最大限度的提高经济效益．与常规FCC原料油（如AGO和VGO）相比，渣油或重油中Ni、V、Fe、Cu等金属含量明显偏高，严重污染了FCC催化剂，其中影响最大的是镍和钒，它们沉积在催化剂上，导致催化剂裂化活性下降，产物选择性变差，当钒含量很高时还能破坏分子筛结构，     

助剂镍/钴对磷化钨催化剂加氢精制性能的影响

在共浸渍法制备磷化钨／γ-Al2O3催化剂基础上，分别加人1％、3％、5％、7％和9％(占活性组分比例)的助剂镍或钴，制得负载30％含助剂镍／钴磷化钨／γ-Al2O3系列催化剂，考察了助剂及其加人比例对催化剂加氢脱硫和加氢脱氮性能的影响．结果表明，加人适当比例的助剂镍或钴，有利于提高磷化钨／γ-Al2O3催化剂的加氢脱硫活性，当助剂含量分别为5％镍或7％钴时，催化剂的噻吩加氢脱硫率最高；助剂镍对磷化钨／γ-Al2O3催化剂的加氢脱氮反应不利，而加人适当比例助剂钴有利于提高催化剂加氢脱氮活性，当助剂钴含量为5％时，催化剂吡啶加氢脱氮率最高．温度对磷化钨／γ-Al2O3催化剂加氢精制性能有一定影响，高温有利于加氢脱硫反应，低温有利于加氢脱氮反应．     

Co/γ-Al_2O_3催化剂上肉桂醛的选择加氢──反应性能的考察

研究了γ－Al2O3负载的Co／γ－Al2O3催化剂上肉桂醛的选择加氢反应．反应结果表明,以CoCl2作为前驱物的Co／γ－Al2O3催化剂的选择性要高于以Co（NO3）2作为前驱物的Co／γ－Al2O3催化剂,而活性则正好相反．当钴的负载量小于9％时,随着钴负载量的增加,催化剂的活性和选择性随之增加,当钴的负载量大于9％时,随着钴负载量的增加,Co／γ－Al2O3催化剂的活性略有增加,而生成肉桂醇的选择性变化也很小,认为9％的钴负载量是催化剂反应活性和选择性的一个阈值．在所选定的范围内,反应温度和压力对肉桂醛加氢的选择性几乎没有影响．     

Pd-SiW12/SiO2催化剂上乙烯直接氧化制乙酸的反应机理

 利用积分反应器和微分反应器对Pd－SiW12／SiO2催化剂上乙烯直接氧化生成乙酸的反应机理进行了探讨．乙烯在积分反应中氧化的主要产物为乙酸（选择性为77．6％），很少生成乙醛（选择性仅为8．1％）；而在微分反应中氧化的主要产物是乙醛（选择性为98．4％）．在微分反应中分别以乙醛和乙醇为主反应物时，乙醛氧化完全生成乙酸，选择性为100％，而乙醇氧化生成乙酸的选择性低于0．15％．可以认为，在Pd－SiW12／SiO2催化剂上，水蒸气存在下乙烯主要经由中间物乙醛而生成乙酸．通过对含有不同组分和不同还原条件处理的催化剂活性的比较，认为目的反应主要发生在Pd与SiW12相互接触的部位，催化剂中的Pd0是活性Pd物种的主要形态．     

镍基催化剂的制备、表征及选择加氢性能

研究了溶胶-凝胶-超临界流体干燥法（sol-gel-SCFD）和浸渍法（IM）制备的SiO2负载镍催化剂的顺酐液相加氢性能,并用XRD、TPR、IR等手段对催化剂的体相和表面结构进行了表征.结果表明: 1) Sol-Gel-SCFD法制备的催化剂其体相和表面结构与镍含量有关,当镍含量 < 30％(质量分数)时,NiO主要以簇团形式存在;随镍含量增高到50％,过量的NiO以微晶态存在并覆盖部分NiO簇团.顺酐(MA)加氢产物有丁二酸酐(SA)和γ-丁内酯(γ-BL),它们的选择性随镍含量增加呈规律性变化;在镍含量为30％的催化剂上γ-BL选择性呈现最大值. 2) IM法制备的催化剂其体相和表面结构与镍含量无关,当镍含量在6％～30％范围内变化时,NiO都以结晶态存在,MA加氢产物为SA; NiO与SiO2的相互作用随镍含量增加而减弱,SA的选择性不变.     

甲烷部分氧化Ni催化剂及助剂的研究

考察了不同Ni担载量的Ni／a－Al_2O_3催化剂的催化性能，以8％Ni（质量分数）最佳．XRD分析表明，8％Ni催化剂表面NiO颗粒最小．TPR分析表明，催化剂表面主要有两种不同化学环境的NiO，当Ni担载量超过12％时，表面开始出现“游离态”NiO，这部分NiO易使催化剂积碳．添加稀土Ce有利于提高Ni催化剂的活性、选择性和稳定性，并对Ce的助剂效应作了研究．     

铁助剂对Rh-Mn-Li/SiO2催化剂CO加氢制二碳含氧化物性能的影响

 采用CO加氢反应、程序升温还原（TPR）、CO吸附和CO脱附等技术，研究了Fe助剂对Rh－Mn－Li／SiO2催化剂上CO加氢合成二碳含氧化物反应的影响．结果表明，Mn，Li和Fe的加入明显提高了Rh催化剂的活性及选择性，特别是在1％Rh－1％Mn－0．075％Li／SiO2催化剂中加入0．05％Fe后，C2＋含氧化物的时空收率由331．6g／（kg·h）提高到457．5g／（kg·h）．但当Fe的加入量继续增加时，催化剂的活性及选择性下降，甲醇的选择性上升．TPR实验表明，当加入少量Fe（0．05％～0．5％）时，TPR的峰面积随Fe加入量的增大而增大，Fe的加入使Rh的还原温度向高温移动，Mn的还原温度向低温移动，Fe的还原峰与Rh和Mn的还原峰相重叠，由此推断这些Fe与Rh是处于紧密接触状态的．当Fe含量增加到1％时，样品在522K出现一个新的谱峰，该峰可归属为与Rh非紧密接触的Fe的还原峰．CO的吸附实验表明，当Fe的加入量超过一定值后，CO吸附量下降．CO的脱附实验表明，在Rh基催化剂中加入少量Fe后，强吸附的CO增多，但当Fe的加入量超过一定值时，强吸附的CO量下降．     

A carbanion induced synthesis of highly congested pyrazole and imidazole containing heterocycles

An efficient approach to the synthesis of highly congested di, penta and hexacyclic pyrazoles as well as imidazole fragment containing novel heterocyclic molecule has been developed through a carbanion induced transformation of suitably functionalized 2H-pyran-2-ones, benzo[h]chromene and thiochromeno[4,3-b]pyrans. Due to the presence of fluorescence, we report their prime application metal sensor as off/on switching in ferric ions.     

Selective synthesis of 4,5-dihydroimidazo- and imidazo[1,5-a]quinoxalines via modified Pictet–Spengler reaction

An efficient tandem approach for the selective synthesis of 4,5-dihydroimidazo[1,5-a]quinoxalines 6a–g and imidazo[1,5-a]quinoxalines 7a–h by the reaction of 2-imidazolyl anilines 4a–c with aryl aldehydes 5a–k under mild reaction conditions is described. Introduction of electron releasing alkyl groups in substrates 4a–b was found to be instrumental for the success of the reaction.     

Understanding the Diels-Alder reactivity of 1,2-azaborine analogues

The Diels-Alder reactivity of 1,2-heteroborines (H₄C₄B(H)X, X?=?NH, PH, AsH; O, S, Se) has been computationally explored by means of Density Functional Theory (DFT) calculations. The influence of the HB?=?X fragment on the reactivity of the system has been quantitatively analyzed in detail by means of the so-called Activation Strain Model (ASM) of reactivity. It is found that the interaction between these species and the dienophile is significantly stronger than that computed for their all-carbon isoelectronic counterpart, benzene. In addition, the strain energy plays a key role in the observed reactivity trends. The role of the aromaticity strength of these heteroarenes on the reactivity is also assessed.     

Synthesis of N-substituted carbazolones from α-iodo enaminones via Pd(0)-catalyzed intramolecular coupling under microwave irradiation

A variety of N-aryl and N-alkyl carbazolones were conveniently achieved in good to high yields via Pd₂(dba)₃-mediated intramolecular coupling of N-substituted α-iodo enaminones under microwave irradiation. The Pd(0)-catalyzed cyclization was found to proceed favorably with the more electron-deficient phenyl ring during the reactions involving unsymmetrical N,N-diaryl α-iodo enaminones. This unique property enables the construction of carbazolone skeleton containing nitro substituted benzenoid ring.     

Synthesis of substituted 2,4,5,6-tetrahydrocyclopenta[c]pyrazoles and 2,4,5,6-tetrahydropyrrolo[3,4-c]pyrazoles by intramolecular nitrilimine cycloaddition

Both substituted 2,4,5,6-tetrahydrocyclopenta[c]pyrazoles and 2,4,5,6-tetrahydropyrrolo[3,4-c]pyrazoles have been synthesized by the 3+2 intramolecular dipolar cycloaddition of nitrilimines to alkynes. This cyclization has been extended to more versatile 3-bromo derivatives by the use of alkynylbromides as dipolarophiles.     

Catalyst free,visible-light promoted photoaddition reactions between C60 and N-trimethylsilylmethyl-substituted tertiary amines for synthesis of aminomethyl-1,2-dihydrofullerenes

An efficient and benign method for the preparation of aminomethyl-substituted fullerenes has been developed. The process, involving catalyst free, visible-light irradiation of 10% EtOH-toluene solutions containing fullerene C₆₀ and N-trimethylsilylmethyl-substituted amines by using a 20 W compact fluorescent lamp, leads to formation of aminomethyl-substituted fullerene adducts in a highly efficient manner. The photoaddition reaction takes place via a pathway initiated by visible light absorption by C₆₀, followed by SET from the amine to the triplet excited state of C₆₀. Ethanol-promoted desilylation of the resulting a minimum radical then generates the corresponding α-amino radical which couples with the C₆₀ radical anion to form the anion precursor of the fullerene adducts. The new approach using visible-light takes place under mild conditions and it does not require the use of photocatalysts. Thus, the method developed in this effort could broadens the range of functionalized fullerene derivatives that can be readily prepared.     

Highly efficient and stereoselective cycloaddition of nitrones to indolyl- and pyrrolylacrylates

The reactions of various nitrones with indolyl- and pyrrolylacrylates proceeds regioselectively with high diastereoselectivity in the case of aldonitrones, and represents an effective method for obtaining new indolyl- and pyrrolyl-substituted isoxazolidine carboxylates stabilized by weak (CH?O) and moderate (NH?N) strength intramolecular hydrogen bonding. The resulting cycloadducts exhibit promising in vitro anti-influenza activities.     

Transition metal-free direct amination of benzoxazoles using formamides as nitrogen sources

A transition metal-free method for the direct amination of benzoxazoles using formamides as nitrogen sources is reported, which was mediated by an inexpensive and environmentally friendly tetrabutylammonium iodide/tert-butyl hydroperoxide system and gave the 2-aminobenzoxazole derivatives with moderate to good yields.     

l-Proline-catalyzed five-component domino reaction leading to multifunctionalized 1,2,3,4-tetrahydropyridines

Multifunctionalized 1,2,3,4-tetrahydropyridines are concisely synthesized in good yields via l-proline-catalyzed or l-proline/FeCl₃-cocatalyzed one-pot multicomponent reactions (MCRs). The MCRs involve a domino hydroamination/prins reaction/Mannich-type reaction/intramolecular dehydration-cyclization process. The molecular structure of 5baa, one of multifunctionalized 1,2,3,4-tetrahydropyridines, was confirmed by single-crystal X-ray diffraction.     

Studies of Photoionization of CF3 I by Femtosecond Time-resolved Mass Spectrometry

The multi-photon dissociative photoionization dynamics of CF3I has been studied with femtosecond two-color pump-probe time of flight mass spectra at a pump pulse of 265 nm and a probe pulse of 398 nm. The life constants of CF3I+ and its fragment ions CF3+ and I+ are obtained as (96±7), (198±130) and (167±6)fs, respectively. The multi-photon dynamics leading to these ions differ. CF3I+ corresponds to a (1+2′) transition with one-photon pump excitation to the A band of CF3I. CF3+ are mainly formed by a tow-photon probe excitation to the CF3+ with subsequent dissociation of parent ions. I+ are produced in (2+2′) combined with (1+1′+2′) process. The results provide information on the multi-photon pathways involved.