This paper describes the structure, properties and applications of fullerenes.
介绍了富勒烯碳分子的结构、性质、制备方法及其应用情况。
The Sudbury fullerenes contained helium with compositions similar to some meteorites and cosmic dust.
索德柏立富勒烯里的氦气同位素组成,与某些陨石、彗尘中的一样。
These end Permian fullerenes are also associated with shocked quartz, another direct indicator of impact.
与这些二叠纪末期富勒烯一齐发现的,还有变形石英,即另一个撞击的直接遗迹。
Currently the most efficient organic solar cells are manufactured using one of only two different fullerenes.
目前最高效的有机太阳能电池生产所使用的富勒烯只有这两种。
As soon as Bada and I became aware of this discovery, in 1994, we asked Poreda to examine our Sudbury fullerenes.
巴达与我于1994年一听说这个发现,就请波里达检验我们在索德柏立找到的富勒烯。
The solid carbon represented by C60, namely fullerenes, is the third form of carbon following graphite and diamond.
以C60为代表的固态碳.即富勒碳是继石墨和金刚石之后所发现的第三种单质碳。
Up to date, there are many some problems in the preparation of nano onion-like fullerenes (a high cost and low yield ).
但是对洋葱状富勒烯的制备研究,目前还存在许多的问题(能量损耗高、收率低等)。
However, the application studies of onion-like fullerenes develop slowly for the lack of effective preparation methods.
然而,由于缺乏有效宏量制备纳米洋葱状富勒烯的方法,使其应用研究进展缓慢。
The emphasis is placed on basic study, macroscopic preparation and potential ap- plications of nano onion-like fullerenes.
展望了纳米洋葱状富勒烯基础研究、宏量制备和应用研究的发展趋向。
In this paper, a new method of vacuum heat-treatment was used to prepare macroscopic quantity of nano onion-like fullerenes.
基于此,本文采用真空热处理的方法来制备碳纳米洋葱状富勒烯。
It is an urgent scientific problem how to decorate carbon nanotubes and Fullerenes effectively for their potential application.
如何对碳纳米管、富勒烯进行有效的功能修饰,是当前碳纳米管、富勒烯研究和应用领域中亟待解决的一个科学问题。
Growth and formation of fullerenes and other carbon clusters has presented a mechanistic puzzle to physical and organic chemists.
碳原子团簇的生长过程及其富勒烯的形成机理,是近十余年来科学界孜孜以求而又一直无法求解的难题。
At least a portion of the fullerenes in the condensable gases can be condensed and collected after separation of the condensable gases.
在分离可冷凝气体之后,冷凝并收集可冷凝气体中的至少一部分富勒烯。
A quantitative relationship between the separation factor and the bonded-phase molecular topological index for fullerenes is established.
建立了富烯勒的分离因子与键合相分子拓扑指数间的定量关系。
The discovery of fullerenes made mention of a new conception about the molecule construction and initiated a new domain of carbon chemistry.
富勒烯的发现为人们提出了有关分子构筑的全新概念,开辟了碳化学研究的新领域。
Fullerenes are a class of compounds with unique chemical and physical properties, which potential USES can be explored in the biological medicine field.
富勒烯及其衍生物是一类具有独特物理化学特性的化合物,在生物医学领域有广泛的应用前景。
Meanwhile, the separation of fullerenes including 3% high fullerenes was investigated at the temperature of 348 K using pure toluene as the mobile phase.
同时考察了以甲苯为流动相,在348K的柱温下,该固定相分离富勒烯混合物(含3%高富勒烯)的情况。
We find that the electron states of the peapods depend on the space in the nanotubes and that they reflect electron states of the encapsulated fullerenes.
通过计算我们发现碳纳米豆荚的电子态依赖于碳纳米管内的空隙,并且这种空隙又反映了内嵌富勒烯的电子态。
It is found that the molecular structures of fullerenes will be destroyed at temperatures higher than 870k, and transform into an amorphous state of carbon.
实验发现在高于870k时,富勒碳分子结构被破坏,变成了碳原子的无定形态。
Due to unique chemical and physical features of C_ (60), the biological activities of fullerenes and their derivatives have been recognized in the recent years.
由于C _(60)独特的化学和物理特性,富勒烯及其衍生物的生物活性近年来引起了人们的注意。
Since the discover of fullerene in meteorites and meteorite impact structure, the existences of fullerenes in event strata and its origins have come to the front of scientists.
随着富勒烯在陨石和撞击构造中的发现,人们更加关注事件地层中富勒烯存在的可能性以及它们的可能来源。
The lowest energy isomers of the odd-numbered clusters are cage-like pseudo-fullerenes containing a single two-fold coordinated carbon atom in addition to trivalent carbon atoms.
计算所得的奇数高碳团簇具有准笼状类富勒烯结构,其最低能量异构体都含有一个两配位的碳原子。
In this thesis, a series of experiments involving chlorine were carried out in a graphite arc-discharge reactor and the study focus on the influence of chlorine on the formation of fullerenes.
针对富勒烯科学所面临的这些问题,本论文通过在石墨电弧放电反应中引入氯源,进行了一系列的有关氯参与下合成富勒烯的实验,重点考察了氯对富勒烯形成的影响。
Polycycles and symmetric polyhedra appear as generalizations of graphs in the modeling of molecular structures, such as the Nobel prize winning fullerenes, occurring in chemistry and crystallography.
多角和对称的多面体显示为图的概括的,分子结构模型,如诺贝尔奖获奖富勒烯奖,化学和晶体发生。
Polycycles and symmetric polyhedra appear as generalizations of graphs in the modeling of molecular structures, such as the Nobel prize winning fullerenes, occurring in chemistry and crystallography.
多角和对称的多面体显示为图的概括的,分子结构模型,如诺贝尔奖获奖富勒烯奖,化学和晶体发生。
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