Morphological Control of Helical Solid Bilayers in High-Axial-Ratio Nanostructures Through Binary Self-Assembly

George John; Jong Hwa Jung; Hiroyuki Minamikawa; Kaname Yoshida; Toshimi Shimizu

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Morphological Control of Helical Solid Bilayers in High-Axial-Ratio Nanostructures Through Binary Self-Assembly

机译：通过二元自组装的高轴向比纳米结构中的螺旋固体双层的形态学控制。

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Mixed molecular species of cardanyl glucoside derived from renewable resources provide nanotubes upon self-assembly in water, while the saturated homologue generated a twisted fibrous morphology. The cardanyl glucoside mixture was fractionated into four individual components in order to study their contribution to the nanotube formation. The rational control of self-assembled helical morphologies as achieved by binary self-assembling of the saturated and monoene derivatives. This methods can generate a diversity of self-assembled high-axial-ratio nanostructures (HARNs), ranging from twisted ribbons and helical ribbons to nanotubes.

机译：衍生自可再生资源的腰果糖苷的混合分子物质在水中自组装后可提供纳米管，而饱和同系物则产生扭曲的纤维形态。将腰果糖苷混合物分为四个单独的成分，以研究它们对纳米管形成的贡献。通过饱和和单烯衍生物的二元自组装实现对自组装螺旋形态的合理控制。这种方法可以产生多种自组装的高轴向比率纳米结构（HARN），范围从扭曲的带和螺旋带到纳米管。

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《Chemistry: A European journal》 |2002年第23期|共7页
作者
George John; Jong Hwa Jung; Hiroyuki Minamikawa; Kaname Yoshida; Toshimi Shimizu;
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正文语种 eng
中图分类化学;应用化学;
关键词
glycolipids; helical solid bilayers; morphological control; nanostructures; self-assembly;

机译：糖脂;螺旋固体双层;形态控制;纳米结构;自组装;

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1. Morphological Control of Helical Solid Bilayers in High-Axial-Ratio Nanostructures Through Binary Self-Assembly [J] . George John, Jong Hwa Jung, Hiroyuki Minamikawa, Chemistry: A European journal . 2002,第23期

机译：通过二元自组装的高轴向比纳米结构中的螺旋固体双层的形态学控制。
2. Self-Assembly of Azobenzene Bilayer Membranes in Binary Ionic Liquid-Water Nanostructured Media [J] . Tejwant Singh Kang, Keita Ishiba, Masa-aki Morikawa, Langmuir: The ACS Journal of Surfaces and Colloids . 2014,第9期

机译：二元离子液体-水纳米结构介质中偶氮苯双层膜的自组装
3. Self-Assembly of Azobenzene Bilayer Membranes in Binary Ionic Liquid-Water Nanostructured Media [J] . Tejwant Singh Kang, Keita Ishiba, Masa-aki Morikawa, Langmuir: The ACS Journal of Surfaces and Colloids . 2014,第9期

机译：二元离子液体-水纳米结构介质中偶氮苯双层膜的自组装
4. Controlling self-assembly of helical,rod-like polypeptides on solid surfaces [C] . Vinay K.Gupta, Alveda J.Williams PMSE Symposia . 2001

机译：控制固体表面上的螺旋状，棒状多肽的自组装
5. Investigating cell adhesion to controlled surface chemistry via self-assembly of binary composition alkylthiol monolayers, streptavidin immobilization, and cell receptor ligand attachment. [D] . Nelson, Kjell Erik. 2003

机译：通过二元组合烷硫醇单分子层的自组装，链霉亲和素固定和细胞受体配体附着，研究细胞对受控表面化学的粘附。
6. Surface Chemistry Special Feature: Self-assembly of metal nanostructures on binary alloy surfaces [O] . T. Duguet, Yong Han, Chad Yuen, 2011

机译：表面化学特性：二元合金表面上金属纳米结构的自组装
7. Self-Assembly: Profile Control in Block Copolymer Nanostructures using Bilayer Thin Films for Enhanced Pattern Transfer Processes (Adv. Funct. Mater. 45/2014) [O] . Chunlin He, Mark P. Stoykovich 2014

机译：自组装：使用双层薄膜的嵌段共聚物纳米结构中的概况控制，用于增强图案转移过程（ADV。Funct。Matter。45/2014）

Morphological Control of Helical Solid Bilayers in High-Axial-Ratio Nanostructures Through Binary Self-Assembly

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