2,5-二甲基噻吩硫氧化物与C60的Diels-Alder反应研究

通过2,5-二甲基噻吩硫单氧化物(亚砜)和2,5-二甲基噻吩硫二氧化物(砜)与C60的Diels-Alder环加成反应,分离获得了稳定加成产物。     

C59XH（X=N,B）与1,3-丁二烯Diels-Alder环加成反应的区域选择性

应用半经验的AMI和密度泛函B3LYP/6-31G*方法对1,3-丁二烯与C59XH(X=N,B)Diels-Alder环加成反应的区域选择性进行理论研究,选择一些有代表性的C59XH(X=N,B)的6-16键探讨环加成反应的机理.1,3-丁二烯与C59NH进行的Diels-Alder反应,随着加成位置远离C59NH的N原子,活化能越来越低,但都比1,3-丁二烯与C60相应反应的活化能高.与此相反,对于1,3-丁二烯与C59BH进行的环加成反应.加成位置最靠近B原子的2,12/r-和2,12/f-过渡态的势垒最低,并且比1,3-丁二烯与C60进行环加成反应的活化能约低18 kJ·mol-1,其产物也是热力学最稳定的.与C60相应的反应相比,C59NH和C59BH中N和B原子不同的电子性质对其邻位双键进行Diels-Alder环加成反应的活性产生了不同影响,前者使反应活性降低,后者使反应活性增强.     

C59XH(X=N,B)与1,3-丁二烯Diels-Alder环加成反应的区域选择性

应用半经验的AM1和密度泛函B3LYP/6-31G*方法对1,3-丁二烯与C59XH(X=N, B) Diels-Alder环加成反应的区域选择性进行理论研究, 选择一些有代表性的C59XH(X=N, B)的6—6键探讨环加成反应的机理. 1,3-丁二烯与C59NH进行的Diels-Alder反应, 随着加成位置远离C59NH的N原子, 活化能越来越低, 但都比1,3-丁二烯与C60相应反应的活化能高. 与此相反, 对于1,3-丁二烯与C59BH进行的环加成反应, 加成位置最靠近B原子的2,12/r-和2,12/f-过渡态的势垒最低, 并且比1,3-丁二烯与C60进行环加成反应的活化能约低18 kJ·mol-1, 其产物也是热力学最稳定的. 与C60相应的反应相比, C59NH和C59BH中N和B原子不同的电子性质对其邻位双键进行Diels-Alder环加成反应的活性产生了不同影响, 前者使反应活性降低, 后者使反应活性增强.     

《化学通报》网络版（Chemistry Online）2006年第10期论文摘要

[w089]碳[60]六加成反应的研究进展**Researches on Hexakis-Addition Reactions of C60王海玲魏先文*(安徽师范大学化学与材料科学学院安徽省功能性分子固体重点实验室芜湖241000)从合成方法学角度阐述了C60六加成化合物的合成、表征和性质研究的最新进展,并展望了其应用前景。The synthesis and characterizationof C60hexakis-additioncompounds were reviewedinthe viewof the syntheticmethodology.The properties and applications of some C60hexakis-additon derivatives were also described.[w090]聚合物磷光电致发光材料的研…     

61-甲基-61-[12-(18-N-四氯邻苯二甲酰亚氨基)脱氢枞胺]-1,2-亚甲基富勒烯[60]的合成

以脱氢枞胺为原料,经氨基酰化、12位乙酰化、与对甲苯磺酰肼形成对甲苯磺酰腙衍生物,再通过卡宾中间体与C60进行[2+1]环加成反应合成了C60-脱氢枞胺衍生物。目标化合物经IR,UV-Vis,1H NMR,13C NMR,MALDI-TOF MS表征,所得化合物为[6,6]闭环结构C60加成产物。     

61-甲基-61-[12-(N,N-四氯邻苯二甲酰基)脱氢枞胺]-1,2-亚甲基富勒烯[60]的合成

以脱氢枞胺为原料,经氨基酰化、12位乙酰化、与对甲苯磺酰肼形成对甲苯磺酰腙衍生物,再通过卡宾中间体与C60进行[2+1]环加成反应合成了C60-脱氢枞胺衍生物。目标化合物经IR,UV-Vis,1H NMR,13C NMR,MALDI-TOF MS表征,所得化合物为[6,6]闭环结构C60加成产物。     

亚甲基烯酮与5-亚甲基-1,3-二噁烷-4,6-二酮反应机理的研究

利用半经验分子轨道理论AM1方法，研究了5-亚甲基-1，3-二噁烷-4，6-二酮与亚甲基烯酮的2，3-位C＝C，3，4-位C＝O和1，2-位C＝O三种双键位置上的环加成反应的反应机理．采用Berny梯度法优化得到反应的过渡态，并进行了振动分析确认．计算结果表明，环加成反应是按照协同的非同步途径进行的，经过一个扭曲的六员环过渡态，前线轨道分析表明反应机理为［4＋2］机理．根据AM1优化得到的产物反应物及过渡态的生成热可知三个反应的活化焓分别为27．07kJ·mol-1，32．41kJ·mol-1和137．96kJ·mol-1，2，3-位C＝C双键上的环加成反应的活化焓最低，这与实验中只观察到2，3－位C＝C双键上环加成产物的结论是一致的．     

Rh(PPh3)3Cl/有机融盐催化烯烃硅氢加成反应

研究了Rh(PPh₃)₃Cl/二烷基咪唑六氟磷酸盐或烷基吡啶六氟磷酸盐催化三乙基氢硅烷与烯烃的硅氢加成反应. 实验结果表明, 二烷基咪唑六氟磷酸盐或烷基吡啶六氟磷酸盐的存在既有利于提高加成反应的转化率和β加成物的选择性, 又有利于反应结束后产物与催化剂的分离. C₁₆PyPF₆作为催化剂的载体, Rh(PPh₃)₃Cl催化苯乙烯与三乙基氢硅烷加成反应的转化率为95.7%, β加成物的选择性为87.8%, α加成物的选择性为0.001%, 脱氢加成产物的选择性为9.2%. 同时, 此催化剂重复使用7次以后仍具有较高的活性.     

C60与硅烯环加成反应机理的理论研究

用半经验AM1法研究了C₆₀与单态硅烯环加成反应机理.经Berny梯度法优化得到反应的过渡态,并进行了振动分析确认.计算结果表明:硅烯在C₆₀的66键上的加成反应分两步,第一步反应物生成中间配合物,无势垒;第二步由中间配合物经过渡态变为产物.65键上的加成反应分三步,第一步由反应物生成中间配合物,第二步由中间配合物经过渡态I得到闭环结构的中间体,第三步由中间体经过渡态Ⅱ形成产物.66键加成反应的活化势垒较低,从反应机理和动力学角度解释了66键加成优于65键加成的原因.     

富勒烯C60-多芳胺类衍生物选择性加成反应的研究

多芳胺是良好的电子给体,富勒烯C60作为电子受体的光诱导分子内和分子间电荷转移现象[1,2]引起人们普遍关注,尤其是设计合成长寿命电荷分离态的富勒烯C60-多芳胺基类衍生物研究[3,4]是热点课题之一.由于聚吡咯/聚芳胺的氧化还原电位较低[5],我们设想包含吡咯/芳胺给体的富勒烯C60衍生物能延长电荷分离态的寿命.本文用1,3-偶极环加成反应[6]对富勒烯C60与多芳胺化合物的选择性加成反应进行了研究,在不同条件下得到了单加成产物和三加成产物,用FAB-MS,UV-vis,IR,1H NMR,13C NMR,HPLC等方法确定了其分子结构.并且利用半经验AM1量子化学方法在理论上研究了它们的优化构型(如图1)、电子结构,结果表明,富勒烯C60-多芳胺基类衍生物的前沿轨道主要由富勒烯C60部分决定,富勒烯C60母体与功能化基团三苯胺基之间存在较强的分子内电荷转移,这为富勒烯C60衍生物作为光电分子器件材料的应用提供了理论和实验依据.     

Synthesis of oxime bearing cyclophosphazenes and their reactions with alkyl and acyl halides

Two novel cyclophosphazenes containing oxime groups were prepared from the hexakis(4‐formylphenoxy)cyclotriphosphazene ( 2 ) and hexakis‐(4‐acetylphenoxy)cyclotriphosphazene ( 7 ). The reactions of these oximes with acetyl chloride, chloroacetyl chloride, methyl iodide, propyl chloride, mono‐ chloroacetone, and 1,4‐dichlorobutane were studied. Hexasubstituted compounds were obtained from the reactions of hexakis(4‐[(hydroxyimino)methyl]phenoxy)cyclotriphosphazene ( 3 ) with acetyl chloride ( 4 ) and chloroacetyl chloride ( 5 ); however, tetrasubstituted product was obtained from methyl iodide ( 6 ). Tetra‐ and trisubstituted products were obtained from the reactions of hexakis(4‐[(1)‐N‐hydroxyethaneimidoyl]phenoxy)cyclotriphosphazene ( 8 ) with acetyl chloride ( 9 ) and chloroacetyl chloride ( 10 ), respectively. All products were obtained in high yields. Pure and defined product could not be obtained from the reaction of 8 with methyl iodide, and could not be also obtained from the reactions of 3 and 8 with propyl chloride, monochloroacetone, and 1,4‐dichlorobuthane. The structures of the compounds were defined by elemental analysis, IR, ¹H, ¹³C, and ³¹P NMR spectroscopy. © 2006 Wiley Periodicals, Inc. Heteroatom Chem 17:112–117, 2006; Published online in Wiley InterScience ( www.interscience.wiley.com ). DOI 10.1002/hc.20176     

Synthesis of polyphenylene dendrimers related to "cubic graphite"

Four large, 6-fold symmetric, polyphenylene hydrocarbons have been prepared by short syntheses that chiefly employed alkyne trimerization, palladium-catalyzed coupling, and Diels-Alder reactions. The two largest of these molecules, hexakis[4'-(pentaphenylphenyl)biphenyl-4-yl]benzene (4, C(294)H(198)) and hexakis[4'-(2,3,4,5-tetraphenylphenyl)biphenyl-4-yl]benzene (5, C(258)H(174)) are substructures of "phenylogous cubic graphite", and the other two, hexakis(2',3',4',5',6'-pentaphenylbiphenyl-4-yl)benzene (26, C(258)H(174)) and hexakis(2',3',4',5'-tetraphenylbiphenyl-4-yl)benzene (25, C(222)H(150)) are strongly pitched, six-bladed molecular propellers. The X-ray crystal structure of compound 26 has also been determined; dendrimer 26 is at present the largest crystallographically characterized hydrocarbon.     

Quantitative analyses of fullerene and polycyclic aromatic hydrocarbon mixtures via solvent‐free matrix‐assisted laser desorption/ionization mass spectrometry

We explore the feasibility of reliable quantitative matrix‐assisted laser desorption/ionization mass spectrometry (MALDI‐MS) analyses via solvent‐free sample preparation, as this procedure provides the unique convenience of being applicable also to insoluble samples. As quantitative MALDI measurements are even more complicated for species ionized by cation attachment, we investigated model systems, such as polycyclic aromatic hydrocarbons (PAHs) and fullerenes, which undergo photoionization and do not require additional cationizing salts. Our quantitative approach rests upon applying the standard‐addition method in MALDI for the quantitative characterization of binary mixtures. Two different systems are tested. Set 1 is composed of hexakis(dodecyl)hexabenzocoronene and hexakis(dodecyl)hexaphenylbenzene, which represent the product and precursor of a cyclodehydrogenation reaction, and Set 2 is a mixture of C60 and C70 fullerenes. In Set 1, severe anomalies could be detected due to a strong influence of the matrix/analyte ratio on the correlation between signal intensity and analyte amount. This can be related to the strong intermolecular interactions among the hexabenzocoronene (HBC) aromatic cores hampering the desorption step and to intermolecular charge transfers, which influence the ionization probability. Minor interferences to the quantitative MALDI characterization are encountered in the analysis of C60 and C70 fullerenes. The spherical shapes of C60 and C70 buckyballs prevent strong aggregation. Thus, no molecule‐dependent anomalies in their desorption‐photoionization behaviour are recognized. Copyright © 2008 John Wiley & Sons, Ltd.     

Synthesis and characterization of benzyl and benzoyl substituted oxime-phosphazenes

Two oxime-cyclophosphazenes were prepared from hexakis(4-formylphenoxy)cyclotriphosphazene (2) and hexakis(4-acetylphenoxy)cyclotriphosphazene (7). The reactions of these oximes with benzyl chloride, benzenesulfanoyl chloride, benzoyl chloride, 4-methoxybenzoyl chloride and 2-chlorobenzoyl chloride were studied. Hexa and pentasubstituted compounds were obtained from the reaction of hexakis(4-[(hydroxyimino)methyl]phenoxy)cyclotriphosphazene (3) with benzyl chloride (4) and benzoyl chloride, respectively. However, the oxime groups on 3 rearranged to nitrile (5) in the reaction of 3 with benzenesulfanoyl chloride and 1-napthalenesulfanoyl chloride. Hexasubstituted compounds were also obtained from the reactions of hexakis(4-[(1)-N-hydroxyethaneimidoyl]phenoxy)cyclotriphosphazene (8) with benzoyl chloride (10), 4-methoxybenzoyl chloride (11) and 2-chlorobenzoyl chloride (12). A trisubstituted compound was obtained from the reaction of 8 with benzyl chloride (9). All the products were generally obtained in high yields. Pure and defined products could not be obtained from the reaction of 3 with 4-methoxybenzoyl chloride and 2-chlorobenzoyl chloride. The structures of the compounds were defined by elemental analysis, IR, ¹H, ¹³C and ³¹P NMR spectroscopy.     

A new mixed acetal-type substitution pattern for alpha-cyclodextrin. Preparation of hexakis (3-O-benzyl)- alpha-cyclodextrin

alpha-CD was converted into hexakis[2,6-di-O-(methoxydimethyl)methyl]-alpha-CD by a proton-catalyzed reaction with 2-methoxypropene. Subsequent benzylation under Brimacombe conditions resulted in the fully protected compound, from which the acid-sensitive acetal groups were removed to obtain hexakis(3-O-benzyl)-alpha-cyclodextrin. The structure of all of the compounds synthesized was confirmed by 13C J-ECHO, COSY, HETCOR and HMBC NMR measurements.     

C60与叠氮化合物的单加成反应

本文从实验以及理论研究两方面介绍了C60与叠氧化合物的单加成反应。依照叠氮化合物的不同,C60与叠氮合物的单加成反应可分为烷基叠氮化物与C60的反应,酰基叠氧化物与C60的反应以及苯基叠氮化与C60的反应三类,而反应产物则为C60亚氨基[6,6]闭环衍生物和C60亚氨基[5,6]开环衍生物两类,不同类型的反应具有不同的反应机理,某些C60亚氨基[5,6]开环衍生物可以转化为C60亚氨基[6,6]闭环衍生物。本文还介绍了碳纳米管与叠氮化合物的加成反应。     

The initiation of the free radical polymerization of vinyl monomers by hexakis(arylisocyano) derivatives of chromium (o)

The present paper describes studies carried out to determine the effect of structure on the free radical polymerization of vinyl monomers initiated by means of the hexakis(arylisocyano) derivatives of chromium (o) in which chlorine, methoxy, and methyl groups have been substituted into different positions of the benzene ring. The kinetics of the initiation reactions resembles that studied in detail for the parent compound hexakis(phenylisocyano) chromium (o). The observed changes in the initial rates of the polymerization of methyl methacrylate at 80°C in the presence of carbon tetrachloride can be accounted for by the electronic effects associated with these substituents. However, when steric overcrowding occurs, the initial rates of polymerization are reduced considerably. The results obtained confirm the mechanism of initiation proposed earlier in which the rate determining step is the S_n² displacement of an arylisocyano ligand by a monomer or reactive solvent molecule. An attempt has been made to explain the increased rate of radical formation observed when chlorine is substituted into the benzene ring.     

Syntheses of hexakis(4-functionalized-phenyl)benzenes and hexakis[4-(4'-functionalized- phenylethynyl)phenyl]benzenes directed to host molecules for guest-inclusion networks

The syntheses of various types of hexakis(4-functionalized-phenyl)benzenes 1 and hexakis[4-(4'-functionalized-phenylethynyl)phenyl]benzenes 2 by the cobalt-catalyzed cyclotrimerization of diarylacetylenes and by the Sonogashira coupling reaction of 1e with arylacetylenes, respectively, are described. X-ray crystallographic analysis showed that host 1e or 2f forms a 2-D network by unique I...I or CH...O=C interactions, respectively.     

C3v-symmetrical tribenzotriquinacenes extended by six C1-functional groups and the first triquinacene-based tris(dithiametacyclophanes)

The first examples of novel bowl-shaped tribenzotriquinacenes (TBTQs) bearing three dithiametacyclophane units within their arene peripheries are reported. The synthesis is based on a C3v-symmetrical hexakis(chloromethyl)tribenzotriquinacene as the key intermediate and yields the inter-ring metacyclophane-type macrocyclization instead of the intra-ring orthocyclophane-type cyclocondensation. Multiple nucleophilic substitution of the same key intermediate leads to a number of other new 6-fold functionalized tribenzotriquinacenes, some of which may be of interest as readily accessible building blocks for the construction of novel bowl-shaped organic networks. The molecular structures of the novel tris(dithiametacyclophanes) and of the hexakis(chloromethyl)- and hexakis(hydroxymethyl)tribenzo-triquinacenes have been determined by X-ray analysis and interesting host/guest aggregation and torsional effects in the solid state are discussed.     

A comparative study of homolytic reactions of fullerenes with aldehydes in a mass spectrometer under electron impact and in solution under UV irradiation

C(60) was reacted in the ionization chamber of a mass spectrometer under electron impact (EI) with aldehydes, RCHO (R = Ph, p-FC(6)H(4), F(5)C(6), p-MeOC(6)H(4), α-thienyl, o-HOC(6)H(4), o-BrC(6)H(4), m-BrC(6)H(4) and t-Bu), with the transfer of R? radicals and with Me?-transfer from i-PrCHO and t-BuCHO. Paramagnetic fullerene derivatives were stabilized by the addition of the next R? radical or a hydrogen atom, or hydrogen or bromine atom loss. A detailed study showed that the reaction between C(60) and PhCHO occurred via a homolytic mechanism that matches one reported earlier for the reaction with acetone. This suggests the generality of the mechanism for the reactions of fullerenes with other species in ionization chambers under EI at ca 300°C. All aldehydes, except one, had radicals at the carbonyl group which were different from those in the ketones examined earlier in the reactions. This expanded the variety of radicals which can be transferred to fullerenes during reactions in ionization chambers under EI. Due to this and the hydrogen atom at the CO group of aldehydes, some reactions occurred that were not found for the ketones: the formation of cyclic products C(60)COC(6)H(4) and C(60)OC(6)H(4) for PhCHO, o-BrC(6)H(4)CHO and o-HOC(6)H(4)CHO, respectively, and HC(60)Ph for o- and m-BrC(6)H(4)CHO. The reaction with α- formylthiophen gives the first example of transferring an aromatic heterocyclic radical to C(60) in an ionization chamber under EI. C(70) reacted with PhCHO, p-FC(6)H(4)CHO and i- PrCHO similarly to C(60). The results for the reactions of C(60) with PhCHO and with i- PrCHO were compared with those in solution under UV irradiation. Incomplete but reasonable coincidence was found; in both modes, the addition of Ph?, PhCO? and Me? radicals to C(60) occurred, whereas some other products were formed in solution, and the explanation is given as to why this occurred. This conformity supports the hypothesis based on the results of kindred reactions with ketones and organomercurials: the results of EI-initiated homolytic reactions between fullerenes and other compounds in an ionization chamber can predict the reactivity of the fullerenes toward them in solution.