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- The titania nanotube was characterized by XRD,TEM,BET,TG-DSC and Uv-vis. 用XRD、TEM、BET、TG-DSC、Uv-vis等方法对TiO2纳米管的形貌、成分和性能进行了表征。
- Abstract: Titania nanotubes have special structures and excellent performances, which draw a great many researchers’ attention. 摘要: 二氧化钛纳米管由于其特殊的结构和优异的性能,在很多领域都有着重要的应用前景。
- This paper reviews the principle of titania nanotubes fabrication and the influence of the organic electrolytes on the growth of titania nanotubes in anodic oxidization. 本文主要介绍了二氧化钛纳米管的阳极氧化原理以及有机电解液在阳极氧化法中对二氧化钛纳米管生长过程的影响。
- Titania nanotubes are 1500 times better than the next best material for sensing hydrogen, according to a materials scientist at The Pennsylvania State University. 据美国宾夕法尼亚州立大学的一位材料科学家称,二氧化钛纳米管的氢传感性能要比下一代最好的传感材料好1500倍。
- Compared with conventional aqueous HF-based electrolytes, the titania nanotubes prepared from nonaqueous organic electrolytes exhibit higher aspect ratio and higher photoconversion efficiency. 与传统的水溶性电解液相比,其深宽比和光电转换效率有了很大的提高。
- Titania nanotube arrays TiO2纳米管
- titania nanotube 二氧化钛纳米管
- Titania: I like to see their smiling face. 我喜欢看见他们的笑脸。
- OBERON Ill met by moonlight, proud Titania. 奥布朗:真不巧又在月光下碰见你,骄傲的提泰妮娅!
- Oberon: I'll meet by moonlight, proud Titania. 真不巧又在月光下遇见你,傲慢的泰妲妮亚。
- TITANIA Perchance till after Theseus' wedding-day. 提泰妮娅:也许要到忒修斯的婚礼以后。
- The nanotube will form the insulating core of the nanoelectrode. 纳米管将成为纳米电极的绝缘核心。
- Then a method to make the carbon nanotube disperse is found. 并找到了使其均匀分散的一种方法。
- This can be achieved by simply squashing the nanotube. 这种转变可以通过对碳纳米管施加单轴应力使之变形而实现。
- Titania: My sweet love, will you want to eat anything else? 我亲爱的,你还想吃些什麼?
- Keywords titania nanotubes;hydrothermal synthesis;photodeposition;characterization;photocatalytic activity; 二氧化钛纳米管;水热合成;光沉积;表征;光催化活性;
- Oberon: This fellow shall be my Titania's true love. 这个乡人可以成为我泰妲妮亚的真爱。
- TITANIA What, wilt thou hear some music, my sweet love? 提泰妮娅:你要不要听一些音乐,我的好人?
- Furthermore, we gave it a try to synthesize PS coated with titania. 而且,我们对聚苯乙烯外包覆二氧化钛也进行尝试。
- In 1991, carbon nanotube (CNT) was first reported in Nature by Iijima. 1991 年,日本电镜专家 Iijima 在制取 C60的残余物中,发现一种结构独特的管状单质炭,即碳纳米管(carbon nanotube,CNT)。
