1)Nano-Ag/TiO_2纳米Ag/TiO_2
1.Absorption Behavior of Dimethomorph on Nano-Ag/TiO_2 and Photocatalytic Degradation;纳米Ag/TiO_2对烯酰吗啉的吸附与光催化降解
2.So the paper finished cotton fabric with nano silver-TiO_2(nano-Ag/TiO_2) to make it antibacterial.本论文选用无机抗菌剂——纳米载银二氧化钛(纳米Ag/TiO_2)对棉织物进行整理,使其具有抗菌功能。
英文短句/例句
1.Absorption Behavior of Dimethomorph on Nano-Ag/TiO_2 and Photocatalytic Degradation;纳米Ag/TiO_2对烯酰吗啉的吸附与光催化降解
2.Preparation and Characterization of Porous Nano-Ag/TiO_2 Materials and Their Light Catalysis of Organic Compounds多孔纳米Ag/TiO_2复合材料的制备、表征及光降解有机物的研究
3.Comparison of photocatalytic activity of nano Ag/TiO_2 photocatalyst prepared by photocatalytic reduction method in different system不同体系光催化制备纳米Ag/TiO_2光催化剂活性比较
4.Research of Ag and Ce Doped TiO_2 Nano-photocatalyst;掺杂Ag和Ce的纳米TiO_2光催化剂研究
5.Preparation and Characterization of Ag/TiO_2 NanoparticlesAg/TiO_2纳米粒子的制备与表征
6.Preparation of Ag/TiO_2 Nanotube and Its Photocatalytic PerformanceAg/TiO_2纳米管的制备及其光催化性能
7.Studies on Ag-TiO_2/KIT-6 Composite Nanosized PhotocatalystAg-TiO_2/KIT-6复合纳米光催化剂的研究
8.Degradation of Methyl Orange by V~(5+),Ag~+ Co-doped Nano-TiO_2V~(5+),Ag~+共掺杂纳米TiO_2降解甲基橙
9.Study on treatment of ammonia by nanometer TiO_2-Ag/VACF纳米TiO_2-Ag改性VACF处理氨气研究
10.Adsorption of Coordination Compound of Ag(Ⅰ) on TiO_2 Nanoparticles纳米TiO_2对Ag(Ⅰ)配合物的吸附
11.Preparation of Ag Doped Nano TiO_2 Films and Its Photocatalytic Property Research;Ag掺杂纳米TiO_2薄膜制备及其光催化性能的研究
12.Synthesis and Characterization of Ag@TiO_2 Core-shell Nanoparticles;Ag@TiO_2核壳结构纳米颗粒的制备及其表征
13.Studies on Treatment of Drinking Water by Nanometer Ag-TiO_2 Photocatalysis;纳米Ag-TiO_2光催化技术处理饮用水的研究
14.Preparation and Performance of Ag-TiO_2/SiO_2 Thin Films;纳米Ag—TiO_2/SiO_2薄膜催化剂的制备及其性能研究
15.The Synthesize,Character and Epoxidation of Nanometer Ag-TiO_2 Catalyst;Ag-TiO_2纳米催化剂的合成、表征及环氧化催化性能
16.Preparation and Properties of Nano-Ag~+-TiO_2/PVC Antibacterial Plastics纳米Ag~+-TiO_2/聚氯乙烯抗菌塑料制备及其性能
17.Preparation of Ag/TiO_2 nanocomposite with hydrothermal method and its antibacterial function水热法制备Ag/TiO_2纳米复合材料及其抗菌性能
18.Effect of Ag, N Doping on TiO_2 Nanotube Electrode Photocatalytic Degradation Organic Dye Solution;Ag,N掺杂对TiO_2纳米管电极光催化降解有机染料的影响
相关短句/例句
Nanometer Ag-TiO_2纳米Ag-TiO_2膜
1.Studies on Treatment of Drinking Water by Nanometer Ag-TiO_2 Photocatalysis;本文采用凝胶—溶胶法和浸渍-提拉法制备了负载Ag的TiO_2膜,借助XRD,DRS,SEM和AFM等测试手段对制备的纳米Ag-TiO_2膜进行了表征。
3)Ag/TiO_2 nanocomposite filmsAg/TiO_2纳米复合薄膜
1.Herein we have systematic investigated the holographic data storage properties of photochromism Ag/TiO_2 nanocomposite films, and discuss the mechanism of forming/ erasing holographic gratings on the Ag/TiO_2 nanocomposite films, as well as the stability of the holographic fringes.本课题对Ag/TiO_2纳米复合薄膜材料全息光存储性能进行了系统的实验研究,探讨了此类光致变色材料的全息光栅形成机理、可擦写特性以及稳定性。
4)Ag nanowiresAg纳米线
1.A mild and effective method is reported for the selective growth of Ag nanowires within anodic aluminum oxide(AAO) template,which involved fabricating AgBr nanowires,reducing the exposed AgBr nanowires into Ag nanowires and removing the unexposed AgBr nanowires.材料选择性曝光后,利用原位显影液对其进行化学显影,在AAO模板中选择性得到Ag纳米线阵列。
5)nano-Ag/TiO2纳米Ag/TiO2
6)nano-Ag纳米Ag
1.By using γ irradiation, nano-Ag about 10nm can be prepared and distributed uniformly in PAM.制备出的复合物再通过物理混合的方法与EVA复合,得到稳定的纳米Ag/PAM/EVA复合材料。
延伸阅读
ag 5 (adsorbent)CAS:7440-44-0分子式:C分子质量:12.011熔点:3652℃中文名称:碳;活性炭;炭;碳C英文名称:Carbon;Activated carbon;acticarbone;activated charcoal;adsorbit;ag 3 (adsorbent);ag 5;ag 5 (adsorbent);ak (adsorbent);amoco px 21;anthrasorb性状描述:黑色粉状或颗粒状多孔结晶。沸点4827℃,3652℃升华,相对密度约1.8-2.1,表现相对密度约0.08-0.45。生产方法:活性炭是用木屑、枝丫、木炭、果壳、煤等原料,通过炭化和活化制成。含碳材料先在隔绝空气条件下加热处理,除去挥发分(水分和一部分焦油),形成大孔炭料,进一步活化的方法有两类: 1.蒸汽;气体活化较常用的活化剂是二氧化碳和水蒸气。 2.化学活化法 活化剂是碳酸盐;硫酸盐;硝酸盐等,它们能在高温放出气体(例如二氧化碳;氧气);也可用硝酸;硫酸;磷酸等酸类氧化剂。用氯化锌浓溶液处理炭料的方法也得到了广泛应用。 氯化锌法,原料消耗(kg/t)木屑 3900氯化锌 500盐酸(31%) 750用途:活性炭主要用于以下几个方面。 1.气体净化 例如用活性炭从含有溶剂蒸气的空气中回收溶剂、用活性炭过滤法使空气脱臭;或者用于防毒面具和工业用呼吸器中,以防御有毒物等。 2.气体分离 例如从城市煤气中回收苯,从天然气中回收汽油;丙烷和丁烷,用于处理费托合成中的废气,以回收其中的烃类等。 3.液相吸附 例如在制糖工业中用活性炭吸附法使糖液脱色,在化学工业中用活性炭使有机物质脱色,用活性炭净化电镀浴中的有机杂质,以保证电镀表面的质量或用于废水脱酚等。 4.催化剂或催化剂载体 例如用作工业煤气的脱硫和光气生产的催化剂等。因此,活性炭广泛用于制糖、酒类加工、油脂精制、制药、试剂、治金、净化用水、环境保护、回收溶剂和其他蒸气等各个方面。
