碳氮复合镍催化剂催化的高选择性己二腈加氢制备环己亚胺

环己亚胺是一种重要的医药农药中间体,可用于合成青霉素、除草剂和杀菌剂等.本文应用溶剂辅助机械球磨和热解法制备了一系列的负载型Ni基催化剂Ni/IM-C(R),研究了该催化剂对于1,6-己二腈加氢制备环己亚胺的工艺.结果表明,由乙酸镍、 2-甲基咪唑及活性炭共同球磨、煅烧还原所制备的Ni/IM-C(R)具有优良的1,6-己二腈加氢活性和98%以上的环己亚胺收率.通过X射线衍射(XRD)、 X射线光电子能谱(XPS)、扫描电子显微镜(SEM)、能量色散X射线(EDX)、透射电子显微镜(TEM)和N2吸附-脱附测试等表征手段研究了Ni/IM-C(R)催化剂的表面织构性质和化学性质.结果表明,氮掺杂碳材料改善了Ni/IM-C(R)催化剂活性金属Ni纳米颗粒的分散性.在Ni/IM-C(R)催化剂中,镍物种具有高活性,尺寸较小且表面Ni0含量高.在无添加剂存在下, Ni/IM-C(R)催化1,6-己二腈加氢环化制备环己亚胺时显示出良好的加氢活性和环己亚胺的高选择性.Ni/IM-C(R)催化剂制备方法简单、反应后易于分离、多次反应循环后仍具有稳定的催化性能,具有良好的工业应用前景.     

β-酮亚胺镍(Ⅱ)配合物体系催化丙烯二聚反应

以乙酰丙酮衍生的β-酮亚胺镍 ( )配合物在烷基铝作用下催化丙烯的二聚反应 ,并考察了铝镍比、烷基铝助剂的种类、不同取代胺配体等对催化性能的影响 .结果表明 ,该体系在一定条件下能高活性 (6 .0× 10 4～1.0× 10 5h- 1 )和较高选择性 (70 %～ 80 % )的催化丙烯二聚反应 ;二聚产物中以 4-甲基戊烯 (4 - MP)为主 ,含部分2 -甲基戊烯 (2 - MP)和己烯 (Hex) ,以及少量的 2 ,3-二甲基丁烯 (2 ,3- DMB)     

丙烯腈、己二腈和丙腈与水的二元体系液-液相平衡数据的测定和关联(英文)

采用平衡法测定了丙烯腈+水、己二腈+水、丙腈+水三个二元体系在不同温度(303.15、313.15、323.15、333.15K)下的液-液相平衡数据;并采用NRTL(α=0.2,α=0.3)模型和UNIQUAC模型对液-液平衡数据进行了关联.结果显示,NRTL和UNIQUAC模型对三个二元体系在不同温度下的互溶度关联的目标函数值均小于1×10-17,实验值与计算值吻合较好,绝对偏差小于0.009,关联精度较高.该研究结果可为丙烯腈、丙腈和水三元平衡溶解度数据的模拟和预测提供可靠的基础数据,并对电解二聚法生产己二腈中电解液的分离提纯工艺具有一定的指导意义.     

KF-蒙脱土催化下2-氨基-3-氰基-4-芳基-7,7-二甲基-5-氧代-4H-5,6,7,8-四氢苯并[b]吡喃的合成

以KF-蒙脱土为催化剂, 取代肉桂腈与5,5-二甲基-1,3-环己二酮在95%乙醇中回流反应得2-氨基-3-氰基-4-芳基-7,7-二甲基-5-氧代-4H-5,6,7,8-四氢苯并[b]吡喃, 此方法快速、方便、高效, 同时考察了溶剂、催化剂对反应的影响.     

由α-氰基二硫缩烯酮制备多取代喹唑啉酮化合物

以α-氰基乙酸甲酯为起始原料,经与二硫化碳、碘甲烷反应先得到α-氰基二硫缩烯酮1,1与苯乙酮2反应得2H-吡喃-2-酮-3-腈化物3,碱诱导下3再与丙二腈经环转化得到多取代邻氨基芳香腈4,4与酮5在氢氧化钠催化下环化得到多取代喹唑啉酮目标物6.这组连续转化合成多取代喹唑啉酮的反应具有原料简便、反应温和等优点.     

钯催化 1,3-丁二烯羧酯化合成 3-戊烯酸甲酯

 以 1,3-丁二烯、CO 和甲醇为原料, 进行羧酯化反应合成 3-戊烯酸甲酯是 Altam 路线生产己内酰胺绿色工艺的关键步骤. 将 Pd 与三齿 N-杂环配体或双膦配体组成的催化体系用于 1,3-丁二烯的羧酯化反应中, 其中乙酸钯/2,6-二 (3,5-二甲基吡唑基) 吡啶催化剂表现出中等的催化活性, 在 150 ºC, p(CO) = 6.0 MPa 的优化条件下反应 6 h, 1,3-丁二烯转化率为 78.8%, 3-戊烯酸甲酯选择性达 92.2% (TON = 226); 而乙酸钯/2,2?-二 (二苯基膦基) 苯醚催化体系的活性更高, 在优化反应条件下, 1,3-丁二烯转化率达 90.4%, 3-戊烯酸甲酯选择性为 91.6% (TON = 181). 在 200 ºC 及类似的羧酯化反应条件下, 1,3-丁二烯发生二聚反应, 其转化率为 99% 以上, 二聚产物 4-乙烯基-1-环己烯选择性高于 96%.     

9-氧代桉烷-4-烯-3-酮类似物的DDQ脱氢重排反应机理研究

我们在研究 9-氧代桉烷 - 4-烯 - 3 -酮类化合物的 2 ,3 -二氯 - 5 ,6 -二腈基 - 1 ,4-苯醌 (DDQ)脱氢反应时[1] ,发现 1 4-降桉烷 - 4,1 1 -二烯 - 3 ,9-二酮及其 1 0 - Epimer在 DDQ脱氢条件下发生迁移重排反应 ,生成酚类化合物 .反应式如下 :DDQ脱氢反应已被详细研究 ,并被广泛地用于有机合成中 [2～ 5] ,但这种脱氢重排反应尚未见文献报道 .为了深入研究该反应 ,提出可能的重排机理 .我们参照文献 [6～ 1 0 ]方法 ,用 MVK和 EVK与相应的 2 -甲基 - 1 ,3 -二酮进行 Robinson成环反应 ,合成了一系列具有类似结构的化合物 ,并与 DD…     

山西芮城永乐宫元代天花、藻井研究*

采用不同方法制备了一系列Ni/Al_2O_3催化剂,在无NH_3、无碱条件下对其己二腈催化加氢制1,6-己二胺的反应性能进行研究.通过XRD、 BET、 TEM、 XPS及程序升温实验等结果表明,采用沉淀剂有利于细小Ni纳米颗粒在催化剂介孔内的分散。然而较强的Ni与载体间相互作用不利于氢气的吸附活化,还原处理后催化剂中仍存在较高含量的氧化态Ni物种.采用浸渍法制备的Ni/Al_2O_3-I催化剂中颗粒的平均尺寸为18.5 nm, Ni颗粒暴露在载体表面,生成较高含量的还原态Ni0物种及有利于反应物吸附的中等强度酸性位点.该Ni/Al_2O_3-I催化剂表现出优良的低温活性,在60℃时,己二腈转化频率(TOF)可达39.7 h~(-1);80℃时转化率为100%, 1,6-己二胺收率可达73.0%.然而,由于Ni/Al_2O_3-I催化剂中Ni与Al_2O_3间相互作用较弱,经过3次循环性能测试,催化剂活性明显下降.进一步以少量Cu元素修饰低含量Ni/Al_2O_3-I催化剂, Cu助剂的引入有效改善了Ni纳米颗粒的分散性,并与部分Ni组分形成双金属纳米颗粒.Ni_(15)Cu_3/Al_2O_3催化剂经5次循环反应后无明显失活现象,催化剂的形貌及化学结构亦无明显变化, Cu的引入在保持Ni基催化剂低温活性的同时有效提升了催化剂的循环稳定性,催化剂的TOF为52.1 h~(-1).     

聚膦腈-g-聚己内酯共聚物的合成与表征

通过三甲基碘硅烷与聚二(2-甲氧基乙氧基)膦腈侧链上的醚键反应后水解得到侧链含部分羟基的聚膦腈,然后利用聚膦腈的侧链羟基在异辛酸亚锡催化作用下,引发己内酯单体开环聚合制备了聚膦腈-g-聚己内酯共聚物.该共聚物中聚己内酯链段的接枝率和侧链长度可通过改变三甲基碘硅烷和己内酯单体的投料来控制.     

微波促进水杨醛肟一锅法制备2-二氟甲氧基苯腈

以氯二氟乙酸钠为二氟甲基化试剂,碳酸钾为碱,实现了微波促进水杨醛肟一锅脱水成腈及二氟甲基化反应,以中等收率获得了8个2-二氟甲氧基苯腈类化合物,其中7个为新化合物.利用核磁共振波谱、红外光谱和高分辨质谱等手段对目标产物进行了表征.讨论了二氟甲基化试剂、碱和溶剂的种类、微波功率、反应温度和时间对反应的影响.确定了最优反应条件:含有不同取代基的水杨醛肟、氯二氟乙酸钠、碳酸钾和N,N-二甲基甲酰胺的摩尔比为1∶1.5∶1.5∶13,微波功率300 W,反应温度85℃,反应时间20 min.结合对比实验,提出了可能的反应机理.     

Structures of the intermediates formed in the ring-opening reaction of 2-chloro-3-nitropyridine

The reaction of 2-chloro-3-nitropyridine with two equivalents of hydroxide ion was studied by NMR and X-ray crystallography. On the basis of NMR coupling constants, the originally formed ring-opened intermediate is the pseudo-cis form, as predicted by the SN(ANRORC) mechanism. However, the first intermediate is unstable and isomerizes to a second intermediate, which was isolated. The pseudo-trans geometry of the second intermediate [3-pentenenitrile, 2-nitro-5-oxo, ion(-1), sodium] explains why additional base does not lead to the ring-closing reaction as observed with 2-chloro-5-nitropyridine.     

A new 3-(phenylseleno)allylic cation: its regioselective C-C bond formation reaction with nucleophiles

Highly useful C-C bond formation using 2-ethoxy-3-(phenylseleno)prop-2-enal acetal 2 was examined with various Lewis acids. The reaction of 2 with the silyl enol ether in the presence of BF(3)*Et2O, ZnBr2, or SnBr4 regioselectively provided (Z)-3,4-diethoxy-5-(phenylseleno)pent-4-enophenone 5a in high yields. On the other hand, the reaction with other Lewis acids such as EtAlCl2 or SnCl4 gave 5-(phenylseleno)- 6 or non-selenopentane-1,4-dione 7, respectively. Novel prop-2-enal acetals 2-4 and 13-15 reacted with various nucleophiles to give pent-4-enophenones 5a,b, 10a, 12, and 16-18, S-ethyl pent-4-enoate 5b, alkylated vinylic sulfide 10b, 3-pentenenitrile 5d, and 10c. A versatile pent-4-enophenone 5a could be converted to tetrahydrofuran 20 and penta-2,4-dienophenone 19, the Diels-Alder reactions of which with dienophiles gave the adducts 24 and 25.     

Two New Nitrogenous Compounds from the Seeds of Brassica napus

Chemistry of Natural Compounds - Two new nitrogenous compounds identified as (2S)-2-sinapoyl-4-pentenenitrile (1) and brassicalkaloid A (2) have been isolated from the seed of Brassica napus L....     

Isomerization of 2-methyl-3-butenenitrile with (bis-diphenylphosphinoferrocene)nickel compounds: Catalytic and structural studies

The catalytic isomerization of 2-metyl-3-butenenitrile to 3-pentenenitrile was carried out by (dppf)Ni species (dppf = bis-diphenylphosphinoferrocene) in the absence and the presence of Lewis acids. Studies in solution reveal the intermediacy of Ni(II) allyl complexes. Addition of Lewis acids such as BEt₃ allow the crystallization and full characterization of the latter by X-ray diffraction studies.     

Competition and selectivity in the reaction of nitriles on ge(100)-2x1

We have experimentally investigated bonding of the nitrile functional group (R-Ctbd1;N:) on the Ge(100)-2x1 surface with multiple internal reflection infrared spectroscopy. Density functional theory calculations are used to help explain trends in the data. Several probe molecules, including acetonitrile, 2-propenenitrile, 3-butenenitrile, and 4-pentenenitrile, were studied to elucidate the factors controlling selectivity and competition on this surface. It is found that acetonitrile does not react on the Ge(100)-2x1 surface at room temperature, a result that can be understood with thermodynamic and kinetic arguments. A [4+2] cycloaddition product through the conjugated pi system and a [2+2] C=C cycloaddition product through the alkene are found to be the dominant surface adducts for the multifunctional molecule 2-propenenitrile. These two surface products are evidenced, respectively, by an extremely intense nu(C=C=N), or ketenimine stretch, at 1954 cm(-)(1) and the nu(Ctbd1;N) stretch near 2210 cm(-)(1). While the non-conjugated molecules 3-butenenitrile and 4-pentenenitrile are not expected to form a [4+2] cycloaddition product, both show vibrational modes near 1954 cm(-)(1). Additional investigation suggests that 3-butenenitrile can isomerize to 2-butenenitrile, a conjugated nitrile, before introduction into the vacuum chamber, explaining the presence of the vibrational modes near 1954 cm(-)(1). Pathways directly involving only the nitrile functional group are thermodynamically unfavorable at room temperature on Ge(100)-2x1, demonstrating that this functional group may prove useful as a vacuum-compatible protecting group.     

Phase separation of the reaction system induced by CO2 and conversion enhancement for the esterification of acetic acid with ethanol in ionic liquid

The effect of CO2 on the phase behavior of the reaction system and equilibrium conversion for esterification of acetic acid and ethanol in ionic liquid (1-butyl-3-methylimidazolium hydrogen sulfate, [bmim][HSO4]) was studied at 60.0 degrees C up to 15 MPa. It was demonstrated that there was only one phase in the reaction system in the absence of CO2. The reaction system underwent two-phase-->three-phase-->two-phase transitions with increasing pressure. The pressure of CO2 or the phase behavior of the system affected the equilibrium conversion of the reaction markedly. As the pressure was less than 3.5 MPa, there were two phases in the system, and the equilibrium conversion increased as pressure was increased. In the pressure range of 3.5-9.5 MPa, there existed three phases, and the equilibrium conversion increased more rapidly with increasing pressure. As the pressure was higher than 9.5 MPa, the reaction system entered another two-phase region and the equilibrium conversion was nearly independent of pressure. The total equilibrium conversion was 64% without CO2 and could be as high as 80% as pressure was higher than 9.0 MPa. The apparent equilibrium constants (K(x)) in different phases were also determined, showing that the K(x) in the middle phase or top phase was much greater than that in the bottom phase.     

Catalytic Conversion of Methanol by Oxidative Dehydrogenation

This study investigates the effects of addition of oxygen on the oxidative dehydrogenation (ODH) of methanol when a fluorotetrasilicic mica ion-exchanged with palladium (Pd2 -TSM) was used as the catalyst. The reaction proceeded at a very low temperature in the presence of oxygen, and HCOOCH3 was obtained at high selectivity. By calculating the equilibrium conversion, it has been shown that substantial ODH took place for HCOOCH3 production. Consequently, this reaction would make dehydrogenation the dominant reaction at equilibrium. Not all the H dissociated from CH3OH was converted to H2O by oxidation. It has been shown that the H2O was not produced from oxidative dehydrogenation by the direct reaction of CH3OH and O2 when an attempt was made to carry out oxidative dehydrogenation using an isotope oxygen trace method in the gas phase. Therefore, when CH3OH was converted to CO2 and dehydrogenated to HCOOCH3, the C—O bonds were not dissociated.     

羟氨(H2NOH)重排反应的理论研究

羟氨H_2NOH是人们所熟知的分子,但至今还没有确切的实验证据证实有氨氧化物H_2NO的存在,尽管其取代物R_3NO已被分离出。鉴于类羟氨R_2NOH和N-氧化物在生物学上的重要意义,研究H_2NOH和H_3NO的结构以及二者重排反应的动力学行为就成了一个重要课题。本文用内禀反应坐标方法对此反应进行了反应路径解析,并给出了沿反应途径上的振动频率相关。     

O2对燃煤烟气中As2 O3均相反应生成途径影响研究

应用量子化学密度泛函理论研究了燃煤烟气中As和AsO与O_2均相生成As_2O_3的反应机理。首先计算确定了各反应物、中间体、过渡态和产物的结构和能量,然后运用热力学和动力学方法对As_2O_3均相生成过程进行分析。结果表明,由As和AsO与O_2均相生成As_2O_3的最大反应能垒分别为32.9和157.2kJ/mol,在烟气中由As转化为As_2O_3更为容易进行。在500-1900 K下,各反应的正逆反应速率常数均随温度的提高而增大,但不同反应过程受温度影响的程度不同。As与O_2反应生成AsO和AsO_2的两个反应过程的平衡常数在所研究的温度范围内均大于10~5,能完全反应,可以认为是单向反应。AsO与O_2反应生成AsO_2的过程平衡常数在所研究的温度范围内小于10~5,反应不完全,转化率低。AsO与AsO_2生成As_2O_3(D3H)构型的平衡常数极低,反应难以进行,而生成As_2O_3(GAUCHE)构型反应能垒低,可自发进行。     

氮杂穴状大环钴(Ⅱ)配合物的合成、晶体结构及其催化性能

以一个氮杂穴状大环配体为自由配体,与硝酸钴经配合反应合成了一个新的穴状单核钴配合物[CoL(NO_3)]·(NO_3)·8H_2O(1),其晶体结构经X-射线单晶衍射表征。采用紫外-可见分光光度法对1催化p-硝基苯酚醋酸酯(NA)的水解动力学性质进行了研究。结果表明:催化水解速率对底物(NA)及配合物浓度均呈一级反应,催化水解速率受酸碱平衡影响。