Nanoporous

纳米多孔

常用释义

纳米多孔

扩展信息

纳米多孔

纳米多孔(Nanoporous)材料是多孔材料的重要组成部分,它是指具有显著表面效应、孔径介于0.1～100nm、孔隙率大于40%、具 …

奈米孔洞

1-1奈米孔洞(Nanoporous)材料...............1 1-1-1奈米孔洞(Nanoporous)材料制作......3 1-1-2模版法(Template)-金属奈米孔洞材料.3

奈米孔隙

可由旋涂法制作出均匀的奈米孔隙（nanoporous）薄膜，孔洞大小在5～7nm 大小，孔洞比在40％～70％之间，奈米孔隙薄膜 …

奈米多孔

...(gas-sensitive material)的奈米多孔(nanoporous)气体感测器。

纳米孔隙

...物质，包括孔隙、非晶质或其它材料等所组成，可分为纳米孔隙 (nanoporous)与纳米复合(nonocomposite)两类薄膜，颗粒 …

奈米多孔性

接着，分析不同结构的奈米多孔性 (Nanoporous) 二氧化钛 (Titanium Dioxide) 薄膜工作电极对染料敏化太阳能电池组件效率的 …

奈米网孔

美国科学家最近制作出具有奈米网孔(nanoporous)的聚合物透射光栅(polymeric transmission grating)。这种结构由於具有很高 …

例句

It seems to be helpful to osseointegration if it can effectively keep the oxidation in nanoporous and increase oxide thickness.

若能有效增加氧化层厚度与降低植体表面孔径尺寸将对骨整合会有所助益。

Aerogols are a novel nanoporous, noncrystalline material, whose structure can be controlled at nanometer scale.

气凝胶是一种新型纳米多孔非晶态材料，结构可控。

The nanoporous silicon membrane is thermally, chemically, mechanically stable and retrievable and can be reused.

纳米多孔硅膜具有优异的耐热性和化学稳定性，且可回收利用。

Result The main development tendency of nanoporous hydroxyapatite as drug carries was pointed out.

结果指出了纳米多孔羟基磷灰石作为药物载体的主要发展趋势。

It is briefly summed up study and application of nanoporous materials and nanocrystalline materials in the use as catalysis.

介绍了纳米微孔和纳米结晶物质作催化剂的制备和应用概况。

C. to form a nanoporous ceramic product useful in catalytic and membrane separation processes.

长，形成多孔陶瓷产品在催化和膜分离过程中非常有用。

C. gives rise to the nanoporous catalytic ceramics of the invention.

长产生发明的纳米多孔催化陶瓷。

and (3) washing the treated nanoporous gold in the distilled water until being neutral, airing to obtain the nanoporous gold.

将处理后的纳米多孔金在蒸馏水中清洗至中性，然后晾干，即制得纳米多孔金。

Dealloying, the most effective method to prepare nanoporous metals, is the key point to their applications.

脱合金法是制备此类材料的有效技术，是实现其应用的关键。

The technique process of polymer nanoporous film is the key point in this research.

本研究深入探索了聚合物纳米孔隙薄膜的制备工艺。

Study of Electrochemical Catalytic Properties of Nanoporous Perovskite Complex Oxide in Oxygen Evolution Reaction

钠米钙钛矿复合氧化物的析氧电催化性质的研究

The beneficial effects of the invention are that the cost of the production of nanoporous gold is largely reduced;

本发明的有益效果是：大大降低了制备纳米多孔金的成本；

Preparation and characterization of monolithic super thermal insulation with nanoporous structures

块状纳米孔超级绝热材料的制备与表征

Electrochemical oxidation of formic acid on novel titanium -supported nanoporous network platinum electrode

甲酸在钛基纳米多孔网状铂电极上的电化学氧化

Synthesis of Nanoporous Silicon Nitride-Based Materials with Various Novel Morphologies in Nonaqueous Media

非水体系合成多种形貌氮化硅基纳米孔材料

Diffusion Impedance and Space Charge Capacitance in the Nanoporous Dye -Sensitized Electrochemical Solar Cell

纳米多孔染料敏化电化学太阳能电池中的扩散阻抗和空间电荷层电容

Research on Annealing Behavior of Copper Nanoparticles Deposited on Silicon Nanoporous Pillar Array

沉积于硅纳米孔柱阵列上的铜纳米颗粒退火行为研究

Investigations of room temperature nanoporous alumina humidity sensor

室温下纳米多孔氧化铝湿度传感器的研究

Current research situation of preparation of nanoporous material -PILC and its development trend

纳米多孔材料-层柱粘土制备研究现状及趋势

Investigations on the structural and optical properties of silicon nanoporous pillar array

硅纳米孔柱阵列的结构和光学特性研究

Fabrication and Characterization of Ordered Nanoporous Ni Membranes

镍有序纳米孔洞阵列厚膜的制备和表征

Preparation of nanoporous silica film and research on its optical properties

纳米多孔二氧化硅薄膜的制备及其光学性质研究

Fabrication of Polymer Nanoporous Antireflection Film

聚合物纳米孔隙增透膜制备工艺的研究

Preparation of nanoporous broadband antireflective coatings by sol -gel method

溶胶-凝胶法制备宽带减反膜

Preparation and characterization of nanoporous silica film

纳米多孔二氧化硅薄膜的制备与表征

Fabrication and characterization of nanoporous silica film

纳米多孔二氧化硅薄膜的制备及性能

Preparation and Modification of Nanoporous Super Thermal Insulator Material: Silica Aerogels

纳米孔超级绝热材料硅气凝胶制备与改性

Preparation and Investigation of Nanoporous Super Thermal Insulation: Silica Aerogels

纳米孔超级绝热材料气凝胶的制备与热学特性

Effects of Experimental Conditions on the Properties of Nanoporous Silica Films

实验条件对纳米多孔二氧化硅薄膜性能的影响

Pore Formation Mechanism of Nanoporous Glassy Carbon and "Shell -core" Structure

纳米孔玻态炭的成孔机理与“壳芯”结构