Biological preparation of nanomaterials and nano-catalysts;
纳米材料和纳米催化剂的生物制备技术;
Recently, people have been paid more attention to nanomaterials and single molecule manipulation technology.
近年来,纳米材料和单分子操纵技术越来越受到人们的关注。
Graphene is one of the thinnest electronic nanomaterials and consists of a single layer of carbon atoms packed in a honeycomb structure.
石墨烯是最薄的电子纳米材料之一,其是由单层蜂窝状结构的单碳原子层组成的。
In order to benefit mankind for such discoveries, it is necessary to cross the chasm between nanomaterials and nanodevices and their applications.
为了使这些研究的成果早日造福于人类,将纳米材料与器件的研究成果转化成实际应用已显得十分必要。
The ionic liquids have now been successfully used in the preparation of a few of one-dimensional nanomaterials and the research progress is summarized in this paper.
现在,已经利用离子液体作为溶剂成功制备出许多一维纳米材料。本文就近几年国内外一维纳米材料的离子液体制备技术研究进展进行综述。
The Rice engineers plan to use nanomaterials discovered by team member Stephan Link to create sheets of materials that can see light in the same ways as cephalopods' skin and change color quickly.
莱斯大学的工程师们计划使用由组员StephanLink所发现的纳米材料创制能感知光的薄片材料,它与头足类动物皮肤的快速变色原理一致。
The physical and chemical properties of nanomaterials are relevant to their morphology and dimension.
纳米材料的物理和化学性质与它的基本单元的形状和大小密切相关…
Nanomaterials have been used in many fields because of their unique properties in optics, electrics, magnetics, mechanics, catalysis and adsorption etc.
纳米材料因其独特的光、电、磁、力、催化和吸附等性能而被广泛应用。
In this dissertation, we have tried to find new methods to design and construct novel alkanethiolate –protected nanomaterials.
本论文主要的目的是采用简单的方法制备新的烷基硫醇保护的纳米粒子。
KNS Nanomaterials Co., Ltd. is devoted to the research, development and production of calcium carbonate powder.
凯恩斯纳米材料有限公司专业致力于碳酸钙粉体的研究、开发和生产。
The development and application of nanomaterials materials in automobile coatings are also explained.
还简介了纳米材料在汽车涂料中的研究和应用。
The excellent performances of nanomaterials were introduced and the applications of nanomaterials were discussed.
对各种纳米材料的卓越性能进行了概述,并列举了部分优异纳米材料的应用。
The nanotechnology and the properties and application of nanomaterials were introduced. The application prospect of nanotechnology and nanomaterials in die and mould manufacturing was also described.
为了更好地推动纳米材料的应用,介绍了纳米技术及纳米材料的性能、用途,并就纳米技术、纳米材料在模具工业中的应用前景进行了展望。
The properties and applications of nanomaterials depend on their phase, size and shape, so it is very important to control the synthesis of nanomaterials.
纳米材料的物相、尺寸和颗粒形状等决定其性能和应用,其可控制备至关重要。
The preparation and performance study of nanomaterials based on physics and chemistry are the foundation of the whole nanotechnology.
其中,以物理和化学为理论基础的纳米材料的制备和性能研究是整个纳米科技的基础。
This thesis brought up and utilized interfacial reaction growth (IRG) and aluminothermal reaction (ATR) approaches to fabricate a series of functional nanomaterials.
本论文提出并利用界面反应生长和铝热法制备出一系列的纳米功能材料。
Scientists have greater control than ever over nanomaterials in a variety of substances, and their understanding is growing.
未来,科学家将可以更好地控制各种物质的纳米材料,对纳米技术将有更深入的理解。
So, the synthesis and application of carbon nanomaterials has been an important subject.
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。
Nanomaterials have long been darlings of the research world because their small size gives them unique chemical, electrical, and light-emitting behaviors.
纳米材料早就是研究的宠儿,因为它们很小的尺寸赋予它们独特的化学、电和光发射行为。
The theory and mechanism of chemically colloidal method which is used to synthesize nanomaterials with controlled size and shape are systemically reviewed.
详细地论述了纳米材料控制合成所采用的胶体化学方法的合成微观原理,对影响纳米材料形貌的各种反应因素进行了详细的讨论。
The properties and preparation methods of nanomaterials were reviewed, its application and development trend in chemical were discussed.
介绍了纳米物质的特性、制备方法及其在精细化工中的应用,对其发展前景进行了展望。
Because of the special physical and chemical character, the nanomaterials has been applied in many fields, and brings enormous progress to people's life.
由于纳米材料的特殊理化性质,使其有广泛的应用领域,给人们的生活带来巨大的进步。
Nanomaterials of 20 kinds of morphologies are selected and their preparation methods, properties and prospects of applications are reviewed.
列举20种形态的纳米光子学材料,阐明它们的制备方法、特性和应用前景。
We aim to computationally design more stable species with tetracoordinate planar carbon, and to explore their potential applications as building blocks for new nanomaterials.
我们的研究目标是通过理论计算设计更多含有平面四配位碳的稳定团簇,探索其作为新型纳米材料结构单元的可能性。
Nanomaterials have different physical, chemical characters from macroscopical materials and microscopical atom and molecular.
纳米材料的物理、化学性质不同于微观的原子、分子,也不同于宏观物体。
Nanomaterials have different physical, chemical characters from macroscopical materials and microscopical atom and molecular.
纳米材料的物理、化学性质不同于微观的原子、分子,也不同于宏观物体。
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