小尺寸效应

Y2O3掺杂稳定ZrO2配合物的前驱体分子结构及小尺寸效应

Precursor Structures and Small Size Effect for Y_2O_3-Doped ZrO_2 Complex

纳米ITO（Indium-Tin-Oxide）超细粉体是具有表面效能、小尺寸效应、量子效应、宏观量子隧道效应的新型纳米功能材料。

Nano-ITO ( Indium-Tin-Oxide ) powders is a surface performance , small size effect , quantum effect , macroscopic quantum tunneling effect of the new nano functional materials .

同时，由于表面效应和小尺寸效应，CO在Ptn上的氧化电位较高，呈现出较多的吸附状态。

Electrochemical CV results illustrated that COad oxidized at higher potential because of the surface structural effect and nano-size effect of Pt nanoparticles .

小尺寸效应对MOSFET器件特性的影响

The Impacts of Small-scale Effects on MOSFET

纳米ZrO2具有量子尺寸效应、小尺寸效应和表面效应，展现出许多独特的性质。

Nano-sized ZrO_2 shows many peculiar characters because of quantum effect , surface effect , etc.

近年来，MOS器件小尺寸效应的建模与仿真技术日趋得到了学者们的广泛重视。

In recent years , the modeling and simulation technologies of the small geometry effects in MOS transistors have received extensive attention .

纳米二氧化硅（SiO2）粒子具有显著的小尺寸效应和表面效应，在塑料、橡胶、涂料、催化剂及生物医学等领域有着广泛的应用。

Silica nanoparticle possesses marked small-dimension effect and surface effect , so it is widely used in plastics , rubber , coating , catalyst , biomedicine and other fields .

分析认为这与CNFs的高表面活性和小尺寸效应等纳米效应有关。

It is believed that the result of CNFs ' nano-effects such as high surface activity and nanoscale effect .

基于流体动力学能量传输模型，研究了深亚微米槽栅结构MOSFET对小尺寸效应的影响，并与相应平面器件的特性进行了比较。

Based on the hydrodynamic energy transport model , the influence of the grooved-gate structure on the characteristic of deep-sub-micron MOSFET 's is studied , and the results are compared with those of the corresponding conventional planar devices .

首先，本课题讨论了阈值电压的短沟/窄沟效应、穿通效应和热载流子效应（HCE）等诸多小尺寸效应；

Firstly , the thesis discusses some small size effects , such as short-channel and narrow-channel effects for threshold voltage , punchthrough effect and hot carrier effect ( HCE ), etc.

纳米颗粒（NPs）由于具有表面效应、小尺寸效应、量子尺寸效应等不同于传统材料的优良性质，在人类生活的各个方面应用广泛。

Due to the special nature of surface effect , small size effect and quantum size effect , nanoparticles ( NPs ) are very different from traditional materials , and they are widely used in various aspects of daily life .

此外，该结构对小尺寸效应也有明显的抑制作用。目前，针对上述特殊结构的LDMOS器件的物理机制研究较少，更不用说建立电学特性的模型。

Furthermore , the proposed structure can obviously suppress scaling-down effects and its threshold voltage can be more easily designed . Currently , there are few physical mechanisms for the special structure LDMOS , to say nothing of the electrical characteristics modeling .

实验结果表明纳米晶粒子存在明显的小尺寸效应。

However , the size effects of test values are to be solved .

产生这种现象的原因，可能是由于库仑阻塞效应和小尺寸效应引起的。

The coulomb blockade effects and the small size effects may results in these results .

理论研究揭示了紫外区吸收峰宽化、吸收边蓝移红移的作用机制在于纳米粒子的量子尺寸效应、表面效应和小尺寸效应。

The shifts in absorption band is attributed to quantity-size effect , surface effect and small-sized effect .

纳米铜粉具有小尺寸效应的特点，可制作润滑剂、催化剂、导电浆料。

Copper nanoparticles , which have small size effect , can be produced lubricant , catalyst , conductive pulp .

纳米粒子的量子尺寸效应、小尺寸效应、表面效应和隧道效应等导致了其在应用方面表现出区别于微米粒子的功能特异性。

The Quantum effect , small size effect , surface effect and tunnel effect of nano-particles are specific comparing with micro-particles .

光谱分裂的原因可能是乙醇对纳米微粒的表面修饰作用、微量杂质的影响以及小尺寸效应的结果。

The change of the characteristics of the particles was mainly attributed to the modifying surface and small size effect of nano-particles .

纳米材料由于具有极小的半径，而存在特殊的小尺寸效应、量子效应和巨大比表面积。

Nano-materials have some features in a special small size , quantum effects and large surface area due to very small radius .

在这些材料中可以观察到一些奇异的物理和力学新效应如小尺寸效应、表面和界面效应、压电效应等。

This may result into some new physical and mechanical effects such as quantum size effects , surface and interface effects , and piezoelectricity .

微/纳米材料所具有的量子尺寸。效应，表面效应以及小尺寸效应，使其与块状材料相比具有更为特殊的物理性能和化学性能。

Micro / nanomaterials possess more special physical and chemical properties than block materials owing to quantum size effects , surface effect and size effect .

稀土纳米材料，综合了稀土材料的光学特性和纳米材料的小尺寸效应，在生物标记领域有广阔的应用前景。

Rare-earth nano-materials can be applied in biological labeling field due to their distinguished optical property from rare-earth elements and small size effect from their nano-scale .

纳米粒子由于具有表面效应、小尺寸效应、量子尺寸效应、宏观量子隧道效应等特殊性质，将纳米材料作为填料制成复合涂料，来提高涂料的力学性能和抗腐蚀性能成为研究的热点。

Due to Nanometer material has Special effect , there has a trend using Nanometer material to improve the mechanics performance and anti-corroding performance of coating .

具有磁导向性、小尺寸效应和活性基团的磁性纳米生物材料在靶向给药、固定化酶、细胞分离和免疫分析以及基因治疗等生物医学领域都有一定的研究。

Magnetic nanometer biomaterials have properties of magnetic target , small dimension effect and biocompatibility , which could be used in the field of biomedical engineering .

个绍了纳米材料的概念及纳米材料的表面效应、小尺寸效应、量子尺寸效应、量子隧道效应、物理效应和化学效应等特性。

Concept and characteristics of nanometer materials are introduced , including surface effect , small dimension effect , quantum-dimension effect , physical and chemical characteristics etc. .

在纳米材料的制备及应用过程中，由于其自身小尺寸效应等特点，可燃纳米颗粒极易产生爆炸危险。

In the material preparation and application processes , the flammable nanometer-sized particles prone to cause explosion because of its own characteristics , such as small size effect .

超细材料所具有的表面效应、小尺寸效应、量子效应等独特性能使其在许多方面有着广阔的应用前景。

The unique characteristics of micro-size materials such as surface trait , the little size and quantum effects , make them have a wide application prospect in many aspects .

具有量子尺寸效应，小尺寸效应以及表面效应等纳米材料所特有的性质，性能优于一般块体材料。

Due to the special properties , such as quantum size effects , small size effect and surface effect , nanocomposites show excellent properties compared with the bulk materials .

因此水稻植硅石具备纳米材料的独特性状：表面效应、小尺寸效应、量子尺寸效应和宏观量子隧道效应。

According to nanometer theory , rice phytoliths must have properties of nanometer materials : surface effect , small size effect , quantum effect and macro quantum tunnel effect .

纳米粒子具有小尺寸效应、量子尺寸效应、表面效应与宏观量子隧道效应等，从而表现出一系列特殊的物理化学性质。

Nano-particles have small dimension effect , quanta dimension effect , surface effect and macroscopical quanta tunnel effect , so they manifest a series of specific physical and chemical characters .