Nitrogen doped fullerene derivative's IR and UV vis spectra are reported.
本文报道了氮掺杂富勒烯的红外和紫外可见光谱。
The invention provides a kind of star polymer taking fullerene derivative as core.
本发明提供了一种以富勒烯衍生物为核的星型聚合物。
The progress of the fullerene (C60) applied in tribology was reviewed in this paper.
本文综述了富勒烯(C60)在摩擦学中的研究进展。
The biological activities of fullerene nanoparticles have received extensive attention.
富勒烯纳米颗粒的生物学效应受到了广泛关注。
Chemical modification is one of the most important research fields in the fullerene chemistry.
在富勒烯化学中,化学修饰一直是富勒烯研究的主要领域之一。
Fullerene chemistry is a newly developed foredisciplinary and is one of the 100 science problem in 21st century.
富勒烯化学是一门新兴的尖端学科,已被列为21世纪的100个难题之一。
Author Introduction:LI Xin-hai(1962-), Male, Proffessor, Director of doctor, engaged in the study on fullerene materials.
作者简介:李新海(1962-),男,湖南邵阳人,教授,博士导师,主要从事富勒烯材料的研究。
Fullerene C60 has been shown to induce certain static features of autophagy, but no detailed studies have been undertaken.
已有研究证明富勒烯c 60可以产生静态的自噬特征,但是到目前为止人们还没有对这一过程进行具体的研究。
The carbon molecule known as a buckyball, a member of the fullerene family, can act as a cage for a variety of other chemicals.
一种称作足球烯的碳分子,它是富勒家族中的一员,可以像笼子一样困住别的化学分子。
Fullerene and carbon nanotubes have attracted much attention of the researchers due to their unique structure and rich electronic properties.
富勒烯和碳纳米管以其独特的几何结构和丰富的电子特性引起了科研工作者的广泛关注。
For its special conditions of production, fullerene is hardly yielded through the process of the common earth environment and dynamic geology.
富勒烯的形成条件特殊,普通的地球环境和地质过程不利于富勒烯的生成。
In this dissertation, we synthesized three types of new fullerene derivatives and investigated the regioselectivity of the mono-addition reactions of C_ (70).
本文主要工作是找到富勒烯化学修饰的三种新方法,合成了几类新型的富勒烯衍生物以及研究了C _(70)单加成反应的区域选择性。
The turning-up of Fullerene and its Compounds, the third kind of allotrope of carbon in simple substance, has been taken a great interest in in chemical circles.
单质碳第三种同素异形体——富勒烯及其化合物的出现,已引起化学界的极大关注。
Gas discharges of barium, cluster, hydroxyl and fullerene were introduced, and the probability of these four emitters 'application in gas discharge lamps was discussed.
简要介绍了钡、团簇、羟基和富勒烯等的放电,探讨了这四种物质在气体放电灯中应用的可能性。
The surface of primary particle of CB consists of randomly ranged fine graphite-like crystals with Fullerene structure carbon, and shows rough atomic steps' morphology.
炭黑原生粒子表面由细小的石墨状晶体无规排列构成,并存在富勒结构碳,呈凹凸不平的原子台阶形貌。
Consequently, a fullerene having a previously unreported high electrical conductivity can be produced, and thus performance of an organic device can be significantly improved.
就能够制造出过去没有报道的高导电率的富勒烯,并且在提高有机器件的性能上取得了很大的效果。
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。
C_(60) is one kind of fullerene with high conjugated cage-types structure. Its covalence between two hexagons has high reactivity, which behaves as addition reaction of double bond.
是高度共轭的笼状结构的碳素体,分子结构中六边形环间的共价碳碳双键是富电子区,反应性能与烯烃有类似性,主要表现为双键加成。
The recent progress and application of functional fullerene organic luminescent materials , including low molecules, conjugated polymers and rare metal complexes , are reviewed in this paper.
综述了最近几年来,功能化富勒烯有机小分子、共轭高分子和金属配合物发光材料的国内外研究状况及应用。
Transitional metal sulfide fullerene-like compounds have been a topic issue due to their unique molecular structure, unusual electronic and magnetic properties as well as potential application.
过渡金属硫化物类富勒烯,由于其独特的分子结构、电子结构及电、磁学性质和潜在的应用前景,因而成为当前富勒烯研究的一个热点课题。
The researches on nanocages and nanotubes are stimulated due to the great applications prospects of fullerene and carbon nanotubes in electronic devices, catalysts, magnetic materials and so on.
它们在电子器件、催化剂和磁性材料等众多领域广阔的应用前景,激发了人们对纳米笼和纳米管的研究热潮。
In order to broaden the scope of application of the fullerene (C_(60)) and carbon nanotube (CNT) in the field of photoanalytical chemistry, some investigation had been performed in this dissertation.
本文以富勒烯(C_(60))和碳纳米管(CNT)这两种碳材料为研究对象,以丰富和拓展它们在光分析化学领域中的应用为目的分成两个部分进行了研究。
In order to broaden the scope of application of the fullerene (C_(60)) and carbon nanotube (CNT) in the field of photoanalytical chemistry, some investigation had been performed in this dissertation.
本文以富勒烯(C_(60))和碳纳米管(CNT)这两种碳材料为研究对象,以丰富和拓展它们在光分析化学领域中的应用为目的分成两个部分进行了研究。
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