共查询到19条相似文献,搜索用时 62 毫秒
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一维金属/半导体异质结纳米材料的制备及性能研究* 总被引:3,自引:0,他引:3
一维金属/半导体异质结纳米材料因其新颖的结构、独特的光电特性和在纳电子领域应用的巨大优势和潜力而受到广泛的关注和重视。本文基于国内外最新研究进展及本课题组的研究工作,系统综述了近年来逐步建立起来的一维金属/半导体异质结纳米材料的制备方法及其性能研究。着重介绍了化学气相沉积法、热蒸发沉积法、模板法、自组装法和液相法等几种比较重要的制备方法,并分析了它们的优缺点;详细分析了此类纳米材料库伦阻塞效应、肖特基二极管现象、欧姆接触特性、电致发光特性等性能的特点。文章最后指出液相法能有效获得高质量和技术可用的一维金属/半导体异质结纳米材料,使用该法进行制备和性能研究将成为此类纳米材料的未来发展方向。 相似文献
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聚乙烯醇(PVA)是分子主链含有—CH2—CH(OH)—基团的高聚物,通过聚醋酸乙烯酯水解得到的水溶性高分子树脂。本工作在超临界CO2的辅助下使用聚乙烯醇来修饰碳纳米管(CNTs),目的是增强CNTs在水中的分散性。进一步利用这种PVA修饰过的CNTs作为催化剂载体,负载金属钯的纳米晶体颗粒,通过调节超临界CO2的压力以及控制反应过程中的磁力搅拌条件,实现了对PVA/CNT/Pd复合材料中钯纳米晶体形貌的控制,为研究水介质Suzuki coupling反应(铃木偶合反应)寻求一条新的道路。 相似文献
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级次纳米结构材料因其新颖的结构,独特的化学、物理性质,以及形貌和尺寸对这些性质极大地影响,使得它在光、电、磁等方面的性质更加丰富, 为实现由下到上构建纳米器件提供了坚实的基础。由此级次纳米结构材料引起化学家和材料学家的极大兴趣, 成为纳米材料化学领域中引人注目的研究方向之一。本文综述了近年来国内外级次纳米结构材料的最新研究进展,重点介绍了介孔材料、具有级次结构的空心球、气凝胶和其他典型的级次纳米结构,归纳了级次纳米结构制备中的各种液相合成方法及其特点,讨论了级次纳米结构的合成机制及各种影响因素,并在此基础上对级次纳米结构材料在一些领域的应用前景进行了展望。 相似文献
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The copper oxide (CuO) hierarchical nanostructures were synthesized by a simple hydrothermal reaction, using copper(II) acetylacetonate and NaOH as the reactants. The morphologies of CuO nanostructures are strongly influenced by the dosage of copper(II) acetylacetonate, alkali concentration and reaction temperature. The possible formation process was also discussed on the basis of time‐dependent experiments. This simple solution‐phase method may be useful for morphological synthesis of other oxides nanocrystals. 相似文献
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Dr. Peng Li Dr. Dingsheng Wang Zhe Wei Dr. Qing Peng Prof. Dr. Yadong Li 《Chemistry (Weinheim an der Bergstrasse, Germany)》2013,19(11):3735-3740
In this study, we report a simple solution‐phase method to prepare ZnO nanostructures with controllable morphologies. By using oleylamine (OAm) and dodecanol (DDL) as solvents, zinc oxide nanocrystals with tunable sizes and diverse shapes (hexagonal pyramids, bulletlike, and pencil‐like shapes) have been obtained under mild conditions. At the same time, the introduction of presynthesized gold nanocrystals can also lead to the hybrid nanostructures of gold–zinc oxide hexagonal nanopyramids. In addition, the possible formation mechanism of the as‐prepared ZnO nanostructures has been investigated. Notably, the unique optical properties of the ZnO nanostructures with different sizes and shapes have also been discussed. We hope that this strategy will be a general and effective method for fabricating other metal oxide nanocrystals. 相似文献
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Lin Zhou Wenzhong Wang Prof. Haolan Xu Songmei Sun Meng Shang 《Chemistry (Weinheim an der Bergstrasse, Germany)》2009,15(7):1776-1782
Flower power : Unique 3D flower‐like Bi2O3 hierarchical nanostructures were synthesized using a mild aqueous template‐free method (see figure). By introducing VO3? into the reaction system, which mediated the nucleation and growth of Bi2O3, the in situ self‐assembly of 3D hierarchitectures from 2D nanosheets has been realized.
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Dr. Chaoran Li Shumin Zhang Dr. Bingchang Zhang Dr. Jingjing Liu Weihu Zhang Prof. Alexander A. Solovev Prof. Rujun Tang Dr. Feng Bao Jia Yu Prof. Qiao Zhang Prof. Yeshayahu Lifshitz Prof. Le He Prof. Xiaohong Zhang 《Angewandte Chemie (International ed. in English)》2018,57(14):3772-3776
Site‐selective growth on non‐spherical seeds provides an indispensable route to hierarchical complex nanostructures that are interesting for diverse applications. However, this has only been achieved through epitaxial growth, which is restricted to crystalline materials with similar crystal structures and physicochemical properties. A non‐epitaxial growth strategy is reported for hierarchical nanostructures, where site‐selective growth is controlled by the curvature of non‐spherical seeds. This strategy is effective for site‐selective growth of silica nanorods from non‐spherical seeds of different shapes and materials, such as α‐Fe2O3, NaYF4, and ZnO. This growth strategy is not limited by the stringent requirements of epitaxy and is thus a versatile general method suitable for the preparation of hierarchical nanostructures with controlled morphologies and compositions to open up a verity of applications in self‐assembly, nanorobotics, catalysis, electronics, and biotechnology. 相似文献
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Kosuke Sato Dr. Yuya Oaki Dr. Daisuke Takahashi Prof. Kazunobu Toshima Prof. Hiroaki Imai 《Chemistry (Weinheim an der Bergstrasse, Germany)》2015,21(13):5034-5040
In biomineralization, acidic macromolecules play important roles for the growth control of crystals through a specific interaction. Inspired by this interaction, we report on an application of the hierarchical structures in CaCO3 biominerals to a stationary phase of chromatography. The separation and purification of acidic small organic molecules are achieved by thin‐layer chromatography and flash chromatography using the powder of biominerals as the stationary phase. The unit nanocrystals and their oriented assembly, the hierarchical structure, are suitable for the adsorption site of the target organic molecules and the flow path of the elution solvents, respectively. The separation mode is ascribed to the specific adsorption of the acidic molecules on the crystal face and the coordination of the functional groups to the calcium ions. The results imply that a new family of stationary phase of chromatography can be developed by the fine tuning of hierarchical structures in CaCO3 materials. 相似文献