Bridged nanocrystals in biominerals and their biomimetics: Classical yet modern crystal growth on the nanoscale

Oaki Y; Kotachi A; Miura T; Imai H

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Bridged nanocrystals in biominerals and their biomimetics: Classical yet modern crystal growth on the nanoscale

机译：生物矿物质及其仿生物中的桥接纳米晶体：纳米尺度上经典而现代的晶体生长

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We demonstrate nanoscale architectures in real biominerals and their biomimetics. Mimicking biomineralization, that is, crystal design in association with organic molecules, has been demonstrated in recent years. Although the macroscopic morphologies in real biominerals and biomimetics have been extensively studied, the nanoscopic structures in terms of the crystal growth are still not fully understood. We show that both materials form oriented architectures of bridged nanocrystals with incorporated organic polymers. The growth of nanocrystals by association with polymers is a significant step for the understanding and developing of crystal growth. The strategy could be applied to various systems in nanoscale crystal growth leading to functional materials.

机译：我们在实际的生物矿物及其仿生物中证明了纳米级结构。近年来，已经证明了模仿生物矿化，即与有机分子结合的晶体设计。尽管已经对真实的生物矿物质和仿生物的宏观形态进行了广泛的研究，但是关于晶体生长的纳米结构仍然没有被完全理解。我们表明这两种材料形成结合有机聚合物的桥接纳米晶体的定向体系结构。通过与聚合物缔合，纳米晶体的生长是理解和发展晶体生长的重要步骤。该策略可以应用于导致功能材料的纳米级晶体生长的各种系统。

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来源
《Advanced Functional Materials》 |2006年第12期|p. 1633-1639|共7页
作者
Oaki Y; Kotachi A; Miura T; Imai H;
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作者单位

Keio Univ, Fac Sci & Technol, Dept Appl Chem, Kohoku Ku, Yokohama, Kanagawa 2238522, Japan;

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原文格式 PDF
正文语种 eng
中图分类无线电电子学、电信技术;
关键词
PREFORMED TITANIA NANOCRYSTALS; AMORPHOUS CALCIUM-CARBONATE; BINARY POLY(ACRYLIC ACID); ECHINODERM CALCITE; ORIENTED ATTACHMENT; SPONGE SPICULES; NACREOUS LAYER; MORPHOLOGY; DESIGN; ORIENTATION;

机译：预制的二氧化钛纳米碳;碳酸钙;二元酸;

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1. The Relationship between Nanoscale Architecture and Charge Transport in Conjugated Nanocrystals Bridged by Multichromophoric Polymers [J] . Reza Dabirian, Vincenzo Palermo, Andrea Liscio, Journal of the American Chemical Society . 2009,第20期

机译：多色聚合物桥接的共轭纳米晶体中纳米尺度结构与电荷传输之间的关系。
2. Rhodium growth on Cu2S nanocrystals yielding hybrid nanoscale inorganic cages and their synergistic properties [J] . Vinokurov Kathy, Bekenstein Yehonadav, Gutkin Vitaly, CrystEngComm . 2014,第40期

机译：铑在Cu2S纳米晶体上的生长产生杂化纳米级无机笼及其协同性能。
3. Controllable growth of nanoscale conductive filaments in solid-electrolyte-based ReRAM by using a metal nanocrystal covered bottom electrode [J] . Liu Q., Long S., Lv H., ACS nano . 2010,第10期

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4. Development of Liquid-Crystalline Nanocrystals by Utilizing the Formation Process of Biominerals [C] . Masanari Nakayama, Satoshi Kajiyama, Wei Qi Lim 日本化学会春季年会講演予稿集 . 2018

机译：利用生物体的形成过程，液晶纳米晶体的研制
5. The study of oriented aggregation: A non-classical nanocrystal growth mechanism [D] . Burrows, Nathan Dennis 2013

机译：定向聚集的研究：非经典的纳米晶体生长机理
6. Cu nanocrystal growth on peptide nanotubes by biomineralization: Size control of Cu nanocrystals by tuning peptide conformation [O] . Ipsita A. Banerjee, Lingtao Yu, Hiroshi Matsui 2003

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7. Nanoscale area selective ZnO growth between a monolayer of nanocrystals [O] . Devloo-Casier Kilian, Dendooven Jolien, Ludwig Karl, 2012

机译：纳米级区域选择性ZnO在单层或纳米晶体之间生长
8. Rational Biomimetic Approach to Structure Defect Generation in Colloidal Nanocrystals. [R] . 2014

机译：胶体纳米晶体结构缺陷产生的合理仿生方法。

Bridged nanocrystals in biominerals and their biomimetics: Classical yet modern crystal growth on the nanoscale

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