笼内金属富勒烯研究进展

回顾了十年来关于笼内金属富勒烯的研究工作，详细介绍了笼内金属富勒烯的各种合成方法、提取手段以及分离方法，阐明了笼内金属富勒烯的电子结构并给出了各类方法对其结构、性质研究取得的成果，最后指出了笼内金属富勒烯的研究前景与应用潜力。     

C60负离子化学的研究进展

中性的C60是很强的缺电子体,主要和亲核试剂进行化学反应.与之不同的是C60经还原生成负离子后,由缺电子变为富含电子,具有很强的亲核性质,可与亲电试剂进行反应.由于这种电子结构的变化,C60负离子进行的反应从机理至产物均有可能与中性富勒烯不同.从而丰富了富勒烯的反应方式和富勒烯产物的类型.结合我们的工作综述了C60负离子化学的研究进展,对丰富富勒烯化学、扩展富勒烯衍生物的种类及制备方法具有一定意义.     

新型内嵌混合金属氮化物原子簇富勒烯的合成、结构与性质*

内嵌混合金属氮化物原子簇富勒烯的发现极大地扩展了内嵌富勒烯家族。内嵌混合金属氮化物原子簇富勒烯是一类新型的内嵌富勒烯,其内嵌物为由2-3种不同的金属组成的氮化物原子簇。本文首先介绍了新型内嵌混合金属氮化物原子簇富勒烯的发现、合成和分离方法,并对目前所分离出来的内嵌混合金属氮化物原子簇富勒烯进行了分类。然后总结了目前所报导的内嵌混合金属氮化物原子簇富勒烯的结构表征手段,对于不同的内嵌混合金属氮化物原子簇富勒烯的分子结构分别进行了阐述。最后着重讨论了内嵌混合金属氮化物原子簇富勒烯的特殊电子性质以及物理和化学性质。本文还对内嵌混合金属氮化物原子簇富勒烯潜在的应用前景作了展望,在内嵌具有不同物理性质的两到三种金属原子的基础上,所形成的内嵌混合金属氮化物原子簇富勒烯有可能兼具不同金属原子各自的性质,从而成为多功能综合的功能材料。     

卤化富勒烯研究进展

自从C60被发现并能被大量制备以来,富勒烯化学已成为有机化学学科发展最快的领域之一。富勒烯通过多加成反应形成具有独特结构和性能的富勒烯卤化物和全氟烷基化物,为设计合成新型富勒烯基功能材料开辟了新方向。本文综述了近几年来在卤化富勒烯和全氟烷基化富勒烯的合成方法、结构及性能方面取得的最新进展,重点介绍了氟化富勒烯及其衍生化反应,并展望了该领域今后的发展趋势。     

高富勒烯的富集方法研究

高富勒烯的含量很低，在总的富勒烯混合物中仅点１％左右，将其分离出来一般要经过提取、富集、高效液相色谱分离三个步骤。目前，高富勒烯的富集用得较多是Ｄｉｅｄｅｒｉｃｈ等采用的方法［１～４］，他们将富勒烯混合物在三根中性氧化铝柱中，用正己烷和甲苯（９５／５...     

卤化富勒烯研究进展

自从C60被发现并能被大量制备以来,富勒烯化学已成为有机化学学科发展最快的领域之一.富勒烯通过多加成反应形成具有独特结构和性能的富勒烯卤化物和全氟烷基化物,为设计合成新型富勒烯基功能材料开辟了新方向.本文综述了近几年来在卤化富勒烯和全氟烷基化富勒烯的合成方法、结构及性能方面取得的最新进展,重点介绍了氟化富勒烯及其衍生化反应,并展望了该领域今后的发展趋势.     

富勒烯合成化学研究进展

富勒烯是一类由12个五元环和若干六元环组成的笼状分子, 自20世纪80年代中期被发现以来就以其独特的结构和新奇的性质而成为科学界研究的热点, 25年来, 无论在基础研究还是在实际应用领域都有了长足的进步, 人们在发展富勒烯合成新方法和寻找富勒烯新结构方面做了大量的工作。本文对富勒烯的各种宏量合成方法进行了回顾, 并概述了迄今已发表的60余种富勒烯新结构,包括各种富勒烯空笼、内嵌富勒烯、富勒烯笼外修饰衍生物及氮杂富勒烯等结构。     

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。     

内嵌金属富勒烯的笼外化学修饰

内嵌金属富勒烯以其独特的结构和新奇的性质吸引了众多科学家的目光,对它们进行笼外化学修饰是最近十年来新兴的研究热点,这对于考察内嵌金属富勒烯的结构及化学物理性质并拓宽其应用范围具有重要意义。本文将内嵌金属富勒烯与各种底物的不同作用分类,以反应类型为线索,详细概括了已发表的内嵌金属富勒烯的各种笼外化学反应,包括各种环化反应、内嵌金属富勒烯与杯芳烃及冠醚的自组装、单键相连的衍生物、水溶性衍生物以及用内嵌金属富勒烯填充碳纳米管等。在对各种化学反应阐述的同时,对内嵌金属富勒烯的可能应用也进行了总结,并提出了自己的看法。     

含富勒烯结构单元酞菁的研究概况

通过不同的合成方法,将富勒烯嫁接到酞菁环的周边或轴向位置上,可以形成一类新型的具有特殊结构和性质的酞菁一富勒烯化合物.综述了具有代表性的含富勒烯结构单元的酞菁的合成及电化学、光致电子转移、分子聚集和自组装等方面的研究概况.     

Synthesis and properties of crystalline fullerene hydrides

The interaction of crystalline fullerence C₆₀ with highly pure hydrogen, which was evolved from hydrides of intermetallic compounds of rear-earth metals and nickel, was studied. Crystalline fullerene hydrides containing from 10 to 30 hydrogen atoms per fullerene molecule were synthesized (1.0–2.5 MPa and 300–673 K). Crystalline hydrides release hydrogen at 800 K with retention of the structure of the fullerene molecule. Translated fromIzvestiya Akademii Nauk. Seriya Khimicheskaya, No. 10, pp. 2093–2096, October, 1998.     

富勒烯金属有机配合物的研究进展

介绍了近几年来富勒烯金属包合物、富勒烯球体与金属键联形成的配合物、富勒烯有机衍生物与金属原子形成的配合物以及富勒烯-有机金属配合物形成的共晶的研究进展.     

Polymeric fullerene hydrides. Birch reduction of [60] fullerene polymers from solution-based photopolymerization and free radical polymerization reactions

Fullerene polymers represent a new class of carbon materials for potential hydrogen storage applications. Poly[60]fullerene polymers were obtained by covalently linking [60]fullerene molecules in photochemical reactions. [60]Fullerene polymers were also prepared in free radical reactions of [60]fullerene with radical initiator benzoyl peroxide. The polymeric [60]fullerene materials were hydrogenated under Birch reduction conditions. The hydrides, which contain ≈3.5% (wt/wt) of hydrogen, were characterized by use of gel permeation chromatography, NMR, FT-IR, and elemental analysis. The results are compared with those of monomeric [60]fullerene hydrides.     

Thermal Decomposition of Fullerene Derivatives A Synthesis Method of New Fullerene Based Molecules

The thermal decomposition of methano-fullerene derivatives such as ethoxycarbonyl methano[60] fullerene and various isomers of bis-(ethoxycarbonyl methano)[60] fullerene leads to new fullerene derivatives, which have been preliminary characterized. The analysis of separated species was performed by UV-VIS, IR, H- and C-NMR, STM, FAB, LDI and MALDI-TOF MS spectroscopy. One of the isolated phases is a C₁₂₂ molecule with a dumbbell-like structure. This revised version was published online in July 2006 with corrections to the Cover Date.     

Products of reaction of fullerene C60 with fuming sulfuric acid studied by IR and ESR spectroscopy

The products of reaction of fullerene C₆₀ with fuming sulfuric acid were precipitated from a solution with water and triethylamine and studied by IR and ESR spectroscopies. A comparison of the obtained data with the spectra of fullerene, dimers C₁₂₀ and C₁₂₀O, and fullerene polymers produced by photopolymerization allowed the conclusion that fullerene polymers were formed by fullerene oxidation with fuming sulfuric acid.     

Hydrogenation of fullerites in the presence of intermetallic compounds or metals

Fullerene hydrides containing 24–26 H atoms per fullerene molecule were obtained by hydrogenation of solid-phase mixtures of fullerenes with either intermetallic compounds LaNi₅, LaNi_4.65Mn_0.35, CeCo₃ or V and Pd metals with gaseous hydrogen at 1.0–2.5 MPa and 573–673 K. These fullerene hydrides decompose at 800 K with evolution of H₂. Upon subsequent heating to 1000 K, vanadium reacts with fullerene to yield a cubic phase of vanadium carbide. The intermetallic compounds react with fullerene with the formation of a metallic phase of the 3d-metal and destruction of fullerene. Palladium does not react with fullerene. Translated fromIzvestiya Akademii Nauk. Seriya Khimicheskaya, No. 4, pp. 679–683, April, 1997.     

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。     

Antitumor Activity and Potential Mechanism of Novel Fullerene Derivative Nanoparticles

The development of novel nanoparticles as a new generation therapeutic drug platform is an active field of chemistry and cancer research. In recent years, fullerene nanoparticles have received extensive attention due to their unique physical and chemical properties. Properly modified fullerene nanoparticles have excellent biocompatibility and significant anti-tumor activity, which makes them have broad application prospects in the field of cancer therapy. Therefore, understanding the anti-tumor mechanism of fullerene nanoparticles is of great significance for the design and development of anti-tumor drugs with low toxicity and high targeting. This review has focused on various anti-tumor mechanisms of fullerene derivatives and discusses their toxicity and their distribution in organisms. Finally, the review points out some urgent problems that need solution before fullerene derivatives as a new generation of anti-tumor nano-drug platform enter clinical research.     

[60]富勒烯的化学修饰及其功能材料性能研究

本文总结了近十几年的文献资料，对[60]富勒烯的化学修饰及其功能材料性能研究进行综述。