对以碳纳米材料为首的新型碳材料的应用前景做了前瞻性的预测。
The application prospects of carbon nanomaterials, one of the new class carbon materials, are outlined with carbon nanotubes as the example.
因此,碳纳米材料的制备及应用也已成为当前的一个热点研究课题。
So, the synthesis and application of carbon nanomaterials has been an important subject.
本文通过放电模型的建立,完善了目前已有的液体电弧法制备碳纳米材料的理论。
In this dissertation, the foundation of the arc model improved the present production theory of carbon nano-materials by arc discharge in liquid.
针对不同的碳纳米材料的生长特性提出了催化剂与反应器设计及过程控制的研究方向。
And consequently the rational catalyst and reactor design and the proper process control method are proposed, considering the differences in the growth of different nanometer carbon materials.
为了实现这个目标,就需要深入研究液体电弧放电过程中碳纳米材料的生长机理,各种电弧放电参数和外加磁场对其影响。
To achieve this objective, in-depth study is needed on the growth mechanism of carbon nano-materials by arc discharge in liquid and the effect of various arc parameters and external magnetic fields.
纳米碳管是一种新型的纳米材料和碳分子,其独特的分子结构和性能引起了人们的广泛关注。
As a new nanometer material and new carbon molecule, carbon nanotubes have been attracted widely attention because of its distinctive molecular structure and performance.
纳米技术是科技界的新一轮浪潮,碳、锌和金等多种材料均可制备成直径小于100纳米的颗粒。
Nanotechnology is a new wave of science that deals with particles engineered from many materials such as carbon, zinc and gold, which are less than 100 nanometers in diameter.
工艺研究结果表明,衬底材料对制备该新型纳米碳膜具有关键作用,离子能量、工作压力及气氛等工艺因素也具有重要作用。
Process review shows that the substrate material is the key factor for the carbon films deposition, and the parameters of ion energy, pressure and methane ratio are impotent also.
纳米碳管是一种新型的纳米材料和碳分子,其独特的分子结构和性能引起了人们的广泛关注。
As a new nanometer material and new carbon molecule, carbon nanotubes have been paid wide attention due to its distinctive molecular structure and performance.
碳纳米管作为一种新型碳材料,具有质轻,高的有效比表面积和优良的导电性,是制备双电层电容器较为理想的电极材料。
Carbon nanotube, a new carbon material, is an ideal material for the electrodes of double electric layer capacitors for its lightweight, large effective specific surface area and high conductivity.
碳纳米管是一种新型的碳材料,具有特殊的结构,独特的力学、电磁学和光学性质,已引起人们的极大兴趣。
As a new kind of carbon materials, carbon nanotubes have attracted tremendous interest because of their unique structural, mechanic, electric, magnetic and optical properties.
综述了纳米晶体材料和纳米碳管材料的力学性能研究的最新进展。
In this paper, the last research progress in the mechanical properties of nanocrystalline materials and carbon nanotubes is reviewed.
本发明涉及一种氮掺杂多孔碳材料的制备方法,属于无机纳米材料及电化 学领域。
The invention relates to a method of preparing a nitrogen-doped porous carbon material, and belongs to the field of inorganic nanometer materials and electrochemistry.
热解碳材料的比容量取决于热解温度,并与可贮锂的纳米孔有关。
The specific capacities base on pyrolytic temperature, involving lithium storage nanometer cavities.
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.
单壁纳米碳管是近年来材料科学以及凝聚态物理研究的前沿和热点。
Single walled carbon nanotube (SWNT) is a hot and frontier topic of materials science and condensed matter physics in recent years.
利用化学镀方法在纳米级碳管表面化学镀镍,得到新一类一维纳米复合材料。
A method to prepare one dimensional nanoscale composite based on coating of carbon nanotube with Ni by electroless plating is proposed.
综述聚合物基复合材料中碳纳米管传感的最新进展:碳纳米管与树脂共混、碳纳米管涂层纤维、碳纳米线和碳纳米纸。
Research advances in carbon nanotubes sensing in polymer composites are reviewed: carbon nanotubes filler, carbon nanotubes coated fiber, carbon nanotubes yarn and carbon nanotubes paper.
本发明涉及在聚合物材料中结合了碳纳米球的新颖复合物。
The present invention relates to novel composites that incorporate carbon nanospheres into a polymeric material.
第三章纳米碳管在场发射显示器中的应用研究本章主要介绍了纳米碳管作为场发射显示器阴极材料的研究。
Chapter III the Application of carbon nanotubes in field emission Display in this chapter, we introduce the researches of the carbon nanotubes as the field emission cathode materials.
由单质硫与碳纳米管合成一种新型含碳复合材料。
A carbon-containing composite was synthesized by heating element sulfur and carbon nanotubes.
介绍了石墨,改性石墨,焦炭,热解碳和纳米级碳材料的研究,比较了各类碳材料的性质。
Studies of graphite, modified graphite, coke, pyrolytic carbon and nano carbon materials are summarized. The characteristics of various carbon materials are compared.
本发明公开了一种纳米碳防腐导电涂料,属于导电材料领域。
The invention discloses a nano-carbon anticorrosion conductive coating, which belongs to the field of conductive materials.
本文从颗粒纳米化、表面包覆碳,本体掺杂等方面综述了提高磷酸亚铁锂材料电子和离子导电能力的的改性研究及产业化进展。
The modification methods, such as controlling nanoparticles granularity, coating carbon, and doping metal, have been reviewed, as well as the state of industry development.
在天然石墨(NG)中掺杂不同比例的碳纳米管(CNT)得到纳米碳与石墨碳的复合材料。
When natural graphite(NG) is doped with different ratios of carbon nanotube(CNT), a composite material formed by nano-C and graphite-C was obtained.
从纳米碳管的分子结构、性质以及潜在的应用,对这种新型纳米材料作了简要描述;
The molecular structures, properties and possible applications of the carbon nanotubes are introduced in this paper.
以镍片为基板材料,利用微波等离子体化学气相沉积法在低温条件下合成了纳米碳管膜。
Carbon nanotube films were synthesized on Ni substrate by microwave plasma chemical vapor deposition at low temperature.
本文利用热灯丝化学气相沉积法(HFCVD)制备了纳米量级的碳薄膜材料,对它的电学性质及场发射性质进行了详细的研究。
In this dissertation, extensive researches on the electrical and field emission properties of nano-carbon films prepared by hot filament chemical vapor deposition (HFCVD).
研究了生长温度、气体压力、基体材料、催化剂等对有序纳米碳管阵列生长行为的影响。
Effects of temperature, pressure, catalysts and substrates on the growth of aligned carbon nanotubes are discussed.
研究了生长温度、气体压力、基体材料、催化剂等对有序纳米碳管阵列生长行为的影响。
Effects of temperature, pressure, catalysts and substrates on the growth of aligned carbon nanotubes are discussed.
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