新型富勒烯α-氨基酸的合成及其纳米颗粒水悬液的制备

通过1,3-偶极环加成反应合成中间体N-取代的3,4-富勒烯吡咯烷, 利用α-氨基与α-羧基均被保护的天冬氨酸或谷氨酸的非α-羧基与中间体N-取代的3,4-富勒烯吡咯烷衍生物的活化羟基进行缩合反应, 产物脱保护后得到了2种新的α-富勒烯氨基酸: 富勒烯天冬氨酸和富勒烯谷氨酸. 采用MALDI-TOF质谱、红外光谱、紫外-可见光谱和1H NMR 等方法对它们进行了结构表征. 采用有机溶剂交换法, 制备富勒烯氨基酸纳米颗粒水悬液, 并进行了电镜和表面zeta-电位分析, 结果表明, 此水悬液体系稳定, 颗粒形态大小均一, 在生物医学领域中具有潜在的应用前景.     

聚谷氨酸苄酯-聚乙二醇-聚谷氨酸苄酯嵌段共聚物的圆二色光谱分析

用三乙胺和双端氨基聚乙二醇分别引发经酯化、环化等处理的谷氨酸开环聚合制备聚谷氨酸苄酯（PBLG）和聚谷氨酸苄酯-聚乙二醇-聚谷氨酸苄酯嵌段共聚物（PBLG-PEG-PBLG,GEG）。采用圆二色光谱对聚合物溶液的旋光性进行分析,以确定共聚物中PBLG嵌段的构型和含量。结果表明,均聚物和共聚物中的PBLG嵌段都以α-螺旋构型存在,中间的PEG不扰乱其构型,通过聚合物的圆二色性（circular dichroism,CD）计算出的PBLG嵌段含量与核磁共振（nuclear magnetic resonance,NMR）所得结果基本一致。     

聚L-谷氨酸γ-苄酯的合成及其结晶结构的研究

利用L-谷氨酸苄酯与三光气反应制备了N-羧基-L-谷氨酸γ-苄酯-环内酸酐(NCA),以正已胺为引发剂,引发NCA开环聚合,合成了分子量为6700的聚L-谷氨酸γ-苄酯(PBLG).利用核磁共振仪(1 H-NMR)、凝胶渗透色谱(GPC)、傅里叶变换红外光谱(FTIR)以及一维大角X射线衍射仪(1D-WAXD)等表征手...     

富勒烯材料的催化作用研究进展

介绍了富勒烯材料（富勒烯和富勒烯衍生物）的催化作用研究进展,特别是催化有机反应方面,包括催化氢转移和硅氢化反应、烷烃裂解反应、氢氘互换反应、耦合和烷基转移反应等.这种新材料还可以催化产生单线态氧（1O2）的化学反应、催化非金属固氮反应、催化石墨合成金刚石的反应,同时还可催化高能燃料的燃烧过程,具有广泛的应用前景.     

Ca@C88和Ca@C90的合成、分离和表征

利用直流电弧法,合成了含钙的富勒烯金属包合物.通过多步高效液相色谱（HPLC）法,首次分离出含钙的富勒烯金属包合物Ca@C88和Ca@C90 (I,II),用激光解析飞行时间质谱(MAL-DI-TOF MS)和紫外-可见-近红外（UV-Vis-NIR） 光谱进行了表征,并对其分子对称性和电子结构进行了讨论.     

AB型两亲聚L-谷氨酸-苄酯-聚乙二醇嵌段共聚物的合成与表征

利用L 谷氨酸和苯甲醇反应制备了L 谷氨酸 苄酯 ,然后将其与三聚光气反应制备了N 羧基 L 谷氨酸 环内酸酐 (NCA) .以聚乙二醇单甲醚 (MPEG)为原料 ,制备了端氨基聚乙二醇单甲醚 (MPEG NH2 ) ,并以此作为引发剂 ,引发NCA开环聚合 ,合成了不同分子量的聚L 谷氨酸 苄酯 聚乙二醇单甲醚 (PBGM )嵌段共聚物 .利用IR、1 H NMR、DSC、GPC等方法对共聚物结构进行了表征 .结果表明 ,MPEG NH2 引发NCA开环聚合得到的是嵌段共聚物 ,通过1 H NMR谱得到共聚物组成及数均分子量 ;随着共聚物中MPEG含量的增高 ,聚L 谷氨酸 苄酯的亲水性有所改善     

高富勒烯的提取新方法

高富勒烯的提取新方法刘咏梅盛蓉生朱绫李俊（武汉大学分析测试中心４３００７２）１９９０年，Ｋｒａｔｓｃｈｍｅｒ和Ｈｕｆｍａｎ等［１］发明了克量级生产Ｃ６０的方法，使富勒烯成为９０年代研究的热门课题。Ｃ７０［２］的单柱克量级分离也有报道，高富勒烯Ｃｎ（ｎ...     

金属富勒烯的价π轨道成键,杜瓦结构和无π轨道自由基结构

对富勒烯的价π轨道成键和无π轨道自由基进行了理论研究，得到内接和外接一种和多种金属富勒烯的各种可能对称性和结构，除了Ｃ６０（Ｉｈ），Ｃ３４（Ｃ３ｖ）和Ｃ２８（Ｔｄ）外，我们还研究了Ｃ３３（Ｃ３），Ｃ５６（Ｔｄ）和Ｃ６８（Ｔｄ）。这样的价键观点将为分子轨道计算以及分子构件配置的相反观点提供新的见解。     

有机富勒烯化合物的逆环加成反应

逆环加成反应是富勒烯衍生物的一种重要反应。在还原、氧化或加热条件下,许多富勒烯衍生物的加成基团会从富勒烯骨架上断开,得到富勒烯母体,是富勒烯环加成反应的逆反应。该反应与富勒烯环加成反应结合,已被应用于富勒烯化学中保护/去保护基团方法,对于选择性制备富勒烯及其衍生物具有重要意义。然而由于逆环加成反应的存在,引起了有机富勒烯化合物的不稳定,从而可能影响其在实际中的应用。最近,我们研究了一系列含有亚胺酯杂原子环结构的富勒烯噁唑衍生物在电化学还原下的稳定性,结果表明加成基团之间存在的分子内C-H…X（X = N,O）氢键对化合物的稳定性可能起着较为关键的作用。在此,我们将结合我们的工作对有机富勒烯化合物的逆环加成反应进行综述。     

稀土富勒烯提取液的解析电子轰击质谱

采用解析电子轰击质谱对电弧法合成的稀土富勒烯衍生物的提取液进行了质谱分析，有效地检测到富勒烯，稀土富勒烯单电荷、双电荷的分子离子峰。利用同位素贡献确证了某些稀土富勒烯的生成。采用高电流瞬间解析样品，使得谱图中的谱峰强度更加真实地反应出提取液中各组分的相对含量。     

碳笼烯(C60)在高分子领域中的研究进展

综述了碳笼烯（Ｃ６０）在高分子领域中的研究进展,包括碳笼烯的高分子化、与聚合物形成电荷转移复合物以及作为催化聚合反应的催化剂。     

胆固醇修饰富勒烯/γ-环糊精包结复合物的生物活性

采用Bingel-Hirsch反应合成了胆固醇修饰的富勒烯(CHL-C60), 通过核磁共振(NMR)、质谱(MS)、元素分析对CHL-C60的化学结构进行了表征. γ-环糊精(γ-CD)对甾环具有较强的包结能力, 能够与CHL-C60形成包结复合物(CHL-C60/γ-CD), 从而有效提高CHL-C60的水溶性. 紫外-可见吸收光谱和荧光光谱研究结果表明, CHL-C60能够从γ-CD的疏水空腔中解离出来, 与人血清白蛋白(HSA)及牛血清白蛋白(BSA)形成稳定的复合体, 其结合常数分别为5.73×104和7.05×104 L·moL-1. 无氧条件下, CHL-C60/γ-CD通过光诱导电子转移作用断裂pBR322质粒脱氧核糖核酸(DNA), 其效率可达60.5%.     

Orthogonal functionalization of a fullerene building block through copper-catalyzed alkyne–azide and thiol–maleimide click reactions

In this study, the synthesis of an orthogonally clickable fullerene building block mono-adduct bearing on one side an alkyne unit and a maleimide moiety on the other side is presented. This derivative has been involved in CuAAC and thiol–maleimide click reactions using stepwise or one-pot processes with benzyl azide and 1-octanethiol. The one-pot process involving the CuAAC reaction followed by the thiol–maleimide conjugation gives the highest yield. This new platform could pave the way for the synthesis of a wide range of fullerene derivatives exploiting this set of orthogonal reactions.     

Synthesis of poly(benzyl glutamate‐b‐styrene) rod‐coil block copolymers by dual initiation in one pot

We have developed a metal free synthetic pathway to homopolypeptide rod‐coil block copolymers. The concept was proven for the synthesis of poly(benzyl‐L ‐glutamate‐b‐styrene). A dual initiator containing a primary amine and a nitroxide group was used in a macroinitiation approach with high initiation efficiency. Good control over the molecular weight in the ring opening polymerization of benzyl‐L ‐glutamate N‐carboxyanhydride was obtained in DMF at 0 °C yielding poly(benzyl‐L ‐glutamates) with low polydispersities around 1.1. The almost quantitative incorporation of the dual initiator was confirmed by MALDI‐ToF analysis. Macroinitiation of styrene by nitroxide‐mediated controlled radical polymerization yielded the block copolymer with high structural control. The diblock structure was confirmed by molecular weight increase upon macroinitiation by size exclusion chromatography and retention time comparison with homopolymers using gradient polymer elution chromatography. Both polymerizations were also successfully conducted in one pot without intermediate isolation owing to the high compatibility of both polymerization techniques. © 2008 Wiley Periodicals, Inc. J Polym Sci Part A: Polym Chem 46: 3068–3077, 2008     

富勒烯衍生物引发的富勒烯末端封端聚己内酯的合成

利用带活性羟基的N-取代3,4-富勒烯吡咯烷作为引发剂,引发ε-己内酯开环聚合,制备了一种具有新型结构的富勒烯末端封端聚己内酯,通过核磁共振(1H NMR,13C NMR)、红外光谱(FTIR)和基质辅助激光解吸电离飞行时间质谱(MALDI-TOF-MS)等手段对产物进行了结构表征,并用热重(TG)分析和差示扫描量热(DSC)分析的方法进行了热学性能分析.结果表明,与聚己内酯相比产物热稳定性增加.     

Preparation of Well‐Defined Diblock Copolymers with Short Polypeptide Segments by Polymerization of N‐Carboxy Anhydrides

Summary: The ring‐opening polymerization of N‐carboxy anhydrides (NCA) of γ‐benzyl‐L ‐glutamate and β‐benzyl‐L ‐aspartate was studied in the presence of an ammonium chloride‐functionalized poly(ethylene oxide) macroinitiator, which possibly prevents side reactions such as NCA deprotonation. Although polymerization initiated by such macroinitiators was found to be quite slow, well‐defined conjugates of poly(ethylene oxide)‐block‐poly(γ‐benzyl‐L ‐glutamate) and poly(ethylene oxide)‐block‐poly(β‐benzyl‐L ‐aspartate) with polydispersity indexes as low as 1.05 were prepared. Moreover, the presence of ammonium chloride chain ends significantly prevented end‐group cyclization of poly(γ‐benzyl‐L ‐glutamate) after polymerization.

Gel permeation chromatograms recorded for the diblock copolymers of poly(ethylene oxide)‐block‐poly(γ‐benzyl‐L ‐glutamate) prepared by N‐carboxy anhydride polymerization initiated either by PEO‐NH₂ macroinitiator or PEO‐NHequation/tex2gif-stack-1.gifCl⁻ macroinitiator.     

Regio- and diastereo-controlled synthesis of bis(formylmethano)[60]fullerenes and their application to the formation of [60]fullerene pearl-necklace polyimines

The tether-directed method was firstly applied to the biscyclopropanation of [60]fullerene via the addition-elimination reaction of bis(sulfonium ylide)s to give bis(formylmethano)[60]fullerenes with satisfactory regio- and stereoselectivity. The equatorial-bisadduct thus obtained was used for the polycondensation with an aromatic diamine to afford the corresponding pearl-necklace polyimine with satisfactorily high degree of polymerization.     

Peptide block copolymers by N‐carboxyanhydride ring‐opening polymerization and atom transfer radical polymerization: The effect of amide macroinitiators

The synthesis of polypeptide‐containing block copolymers combining N‐carboxyanhydride (NCA) ring‐opening polymerization and atom transfer radical polymerization (ATRP) was investigated. An amide initiator comprising an amine function for the NCA polymerization and an activated bromide for ATRP was used. Well‐defined polypeptide macroinitiators were obtained from γ‐benzyl‐L ‐glutamate NCA, O‐benzyl‐serine NCA, and N‐benzyloxy‐L ‐lysine. Subsequent ATRP macroinitiation from the polypeptides resulted in higher than expected molecular weights. Analysis of the reaction products and model reactions confirmed that this is due to the high frequency of termination reactions by disproportionation in the initial phase of the ATRP, which is inherent in the amide initiator structure. In some cases selective precipitation could be applied to remove unreacted macroinitiator to yield well‐defined block copolymers. © 2009 Wiley Periodicals, Inc. J Polym Sci Part A: Polym Chem, 2009     

Synthesis of [60]fullerene-glycopyranosylaminopyrimidin-4-one conjugates

The synthesis of several C₆₀ derivatives containing a 6-(β-d-glycopyranosylamino)pyrimidin-4-one unit and a C₆₀-uridine conjugate is described. The fullerene derivatives bearing a 4-(β-d-glycopyranosylamino)pyrimidin-4-one moiety were synthesised by 1,3-dipolar cycloaddition reactions of C₆₀ with azomethine ylides generated in situ from the corresponding 5-formylpyrimidin-4-one derivatives and N-methylglycine. The synthesis of the C₆₀-uridine conjugate involved the selective protection of the 2′- and 3′-hydroxyl groups of uridine, esterification, cyclopropanation of C₆₀ and, finally, the deprotection of the hydroxyl groups. One of the fullerene-glycopyranosylaminopyrimidin-4-one conjugates was characterised by single-crystal X-ray crystallography. Differentiation between pairs of diastereoisomers, for several fullerene derivatives, was achieved through the study of their gas-phase fragmentations.     

Synthesis and Self‐Assembly of Thermoresponsive Amphiphilic Biodegradable Polypeptide/Poly(ethyl ethylene phosphate) Block Copolymers

We report the design and synthesis of new fully biodegradable thermoresponsive amphiphilic poly(γ‐benzyl L ‐glutamate)/poly(ethyl ethylene phosphate) (PBLG‐b‐PEEP) block copolymers by ring‐opening polymerization of N‐carboxy‐γ‐benzyl L ‐glutamate anhydride (BLG? NCA) with amine‐terminated poly(ethyl ethylene phosphate) (H₂N? PEEP) as a macroinitiator. The fluorescence technique demonstrated that the block copolymers could form micelles composed of a hydrophobic core and a hydrophilic shell in aqueous solution. The morphology of the micelles as determined by transmission electron microscopy (TEM) was spherical. The size and critical micelle concentration (CMC) values of the micelles showed a decreasing trend as the PBLG segment increased. However, UV/Vis measurements showed that these block copolymers exhibited a reproducible temperature‐responsive behavior with a lower critical solution temperature (LCST) that could be tuned by the block composition and the concentration.