Synthesis and Application of Nano-Photocatalysts Emulsion
纳米光触媒的合成工艺及其应用研究
The product uses the latest technology of nano photocatalyst which is safe, effective, and environment friendly in the process of air purification.
本产品采用最新一代纳米光触媒反应器,是目前最先进、环保、安全、有效的空气净化科技。
Cotton finishing with modified nano-TiO_2 photocatalyst
棉织物改性纳米TiO_2光触媒整理
The Production & Application of Aoinn Photocalyst -A kind Nanometer Photo - purifying Material;
一种纳米光净化材料-奥因光触媒的制备及应用
Controllable Preparation of TiO_2-based Nano-catalyst and Its Application in Photocatalytic Degradation of Organic Wastewater;
纳米TiO_2基光触媒的可控制备及降解有机废水研究
Antibacterial Efficacy of Photocataytic Material on the Resin Base with Ag-embedded Nano-TiO_2
载银纳米二氧化钛树脂基托光触媒抗菌作用的观察
Antibacterial efficacy of photocatalytic material on the resin base with Ag-embedded nano-TiO_2
载银纳米二氧化钛树脂基托光触媒的抗真菌作用
Structure and Characteristic of Nanocrystalline β-Sic Films Prepared by Catalytic Chemical Vapor Deposition at Low Temperature;
触媒CVD低温制备纳米β-SiC薄膜及其性能研究
The nanotubes generate80 milliliters of hydrogen per hour per watt of ultraviolet light, a record for a photocatalyst-only system.
利用这种奈米管,每小时每瓦特紫外线可产生80毫升氢气,是纯光触媒系统中的最高纪录。
The Study on Nano-Doped AgSnO_2 Contact Material;
纳米掺杂AgSnO_2电接触材料的研究
Calculation and Study of Nano-doping AgSnO_2 Electrical Contact Materials;
纳米掺杂AgSnO_2电接触材料的计算与研究
Electrical characteristics of Pt-ZnO Schottky nano-contact
Pt-ZnO纳米肖特基接触的电学特性
Formation of Al Ohmic Contacts to Polysilicon Nanofilms
Al金属多晶硅纳米膜欧姆接触的制作
Photocatalytic Oxidation of SO_2 over Nanometer TiO_2;
纳米TiO_2光催化氧化SO_2
The titania photocatalysts have been research quartern century. It has characteristic of photocatalysis which is excellent performance of environmetal cleanup.
二氧化钛光触媒已发展了25年,它具有光催化的特性,是一非常出色的环境清净的光触媒。
Carbon Nanotube(Nanofiber) Electric Contact Composite Films' Preparation and Properties;
金属基碳纳米管(碳纳米纤维)电接触复合电镀层的制备及表征
The application and study of MEMS technology in optical memory
微米/纳米技术在光存储中的应用研究
Controllable Synthesis of Ordered ZnO Nanodots Arrays by Nanosphere Lithography;
用纳米球类光刻技术可控制备ZnO纳米点的研究
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