Photoinduced Self-Assembly of TiO_2 and SiO_2 Nanopartides on Side walls of Single-Walled Carbon Nanotubes

Hyeon Suk Shin; Yeon Su Jang; Yoonmi Lee; Yeonwook Jung; Seung Bin Kim; Hee Cheul Choi

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Photoinduced Self-Assembly of TiO_2 and SiO_2 Nanopartides on Side walls of Single-Walled Carbon Nanotubes

机译：TiO_2和SiO_2纳米粒子在单壁碳纳米管侧壁上的光诱导自组装

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Hybridization of independent nanomaterials into composites is one of the efficient pathways to develop smart functional materials since it could bring unprecedented novel properties or substantially improve the original properties that the individual components exhibit. Among many examples of nanocomposites, carbon nanotube based composites hybridized with polymers, semiconductor quantum dots, transition metal complexes, and wide bandgap metal oxide semiconductors have been widely studied for their utilizations in ultra strong fabrics, solar energy conversion systems, efficient field emitters, etc. One of the key strategies that increase the efficiency of the formation of such nanocomposites is to introduce appropriate anchoring organic functional molecules on the surfaces of nanomaterials, by which two different species could form specific and stable chemical couplings or noncova-lent hybrid materials. In the case that the electrical properties of the original materials should be maintained, however.

机译：将独立的纳米材料杂化为复合材料是开发智能功能材料的有效途径之一，因为它可以带来空前的新特性或显着改善单个组件展现出的原始特性。在纳米复合材料的许多示例中，与聚合物，半导体量子点，过渡金属配合物和宽带隙金属氧化物半导体杂交的基于碳纳米管的复合材料已被广泛研究，因为它们可用于超强织物，太阳能转换系统，高效场致发射器等。提高此类纳米复合材料形成效率的关键策略之一是在纳米材料表面引入合适的锚固有机功能分子，通过这种锚定有机功能分子，两个不同的物种可以形成特定且稳定的化学偶合或无空洞的杂化材料。但是，在保持原始材料的电性能的情况下。

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《Advanced Materials》 |2007年第19期|2873-2876|共4页
作者
Hyeon Suk Shin; Yeon Su Jang; Yoonmi Lee; Yeonwook Jung; Seung Bin Kim; Hee Cheul Choi;
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Department of Chemistry, Pohang Univeristy of Science and Technology San 31, Hyoia-dong, Pohang 790-784 (Republic of Korea);

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正文语种 eng
中图分类工程材料学;
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1. Photoinduced Superwetting Single-Walled Carbon Nanotube/TiO_2 Ultrathin Network Films for Ultrafast Separation of Oil-in-Water Emulsions [J] . Shou Jian Gao, Zhun Shi, Wen Bin Zhang, ACS nano . 2014,第6期

机译：光诱导超湿单壁碳纳米管/ TiO_2超薄网络薄膜用于水包油乳液的超快分离
2. Noncovalent Functionalization of Single-Walled Carbon Nanotube by Porphyrin: Dispersion of Carbon Nanotubes in Water and Formation of Self-Assembly Donor-Acceptor Nanoensemble [J] . Guo Z, Mao J, Ouyang Q, Journal of Dispersion Science and Technology . 2010,第1a3期

机译：卟啉对单壁碳纳米管的非共价功能化：碳纳米管在水中的分散和自组装供体-受体纳米集合的形成
3. Self-assembly of single-walled carbon nanotubes into multiwalled carbon nanotubes in water: Molecular dynamics simulations [J] . Zou J, Ji BH, Feng XO, Nano letters . 2006,第3期

机译：在水中将单壁碳纳米管自组装为多壁碳纳米管：分子动力学模拟
4. Self-Assembly Structure of Porphyrin based Single-Molecule Magnet on Single-Walled Carbon Nanotubes Surface [C] . Ahmed I. A. Abd El-Mageed, Ken-ichi Yamashita, Takuji Ogawa 日本化学会春季年会講演予稿集 . 2018

机译：单壁碳纳米管表面上卟啉基单分子磁体的自组装结构
5. Structure-Processing-Property Interrelationships of Vapor Grown Carbon Nanofiber, Single-Walled Carbon Nanotube and Functionalized Single-Walled Carbon Nanotube - Polypropylene Nanocomposites. [D] . Radhakrishnan, Vinod Karumathil. 2010

机译：气相生长的碳纳米纤维，单壁碳纳米管和功能化单壁碳纳米管-聚丙烯纳米复合材料的结构-工艺-性能相互关系。
6. Photoinduced spontaneous free-carrier generation in semiconducting single-walled carbon nanotubes [O] . Jaehong Park, Obadiah G. Reid, Jeffrey L. Blackburn, -1

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7. Single-Walled Carbon Nanotubes: Solution-Processing of High-Purity Semiconducting Single-Walled Carbon Nanotubes for Electronics Devices (Adv. Mater. 9/2019) [O] . Song Qiu, Kunjie Wu, Bing Gao, 2019

机译：单壁碳纳米管：用于电子设备的高纯度半导体单壁碳纳米管的溶液加工（ADV。Mater。9/2019）
8. Single-Walled Carbon Nanotubes, Carbon Nanofibers and Laser-Induced Incandescence [R] . Schubert, K. , VanderWal, R. L. , Ticich, T. M. , 2004

机译：单壁碳纳米管，碳纳米纤维和激光诱导白炽灯

Photoinduced Self-Assembly of TiO_2 and SiO_2 Nanopartides on Side walls of Single-Walled Carbon Nanotubes

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