Mastering Self-Organization of Functional Materials at Different Length Scale

Paolo Samori; Ana Helman; Fabio Biscarini; Franco Cacialli

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Mastering Self-Organization of Functional Materials at Different Length Scale

机译：掌握不同长度尺度的功能材料的自组织

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We are delighted to present this Special Issue on "Multiscale self-organization of functional nanostructures". As self-assembly of molecular structures has been an established discipline for over two decades, its control over a wide range of distinct lengthscales, from the nano-to the macro-world is still a challenge. To accomplish this goal, a genuine contribution from chemists, physicists, engineers and biologists is required to devise new solutions spanning from some materials design, synthesis, and processing as well as precise time- and space-resolved characterizations. These aspects are fundamental for laying the foundation of functional self-assembled materials for a myriad of technological applications.

机译：我们很高兴介绍这个关于“功能纳米结构的多尺度自组织”的特刊。由于分子结构的自组装已经有二十多年的历史了，因此从纳米到宏观世界，如何控制分子的自组装仍然是一个挑战。为了实现这一目标，需要化学家，物理学家，工程师和生物学家的真正贡献，以设计出涵盖某些材料设计，合成和处理以及精确的时间和空间分辨特征的新解决方案。这些方面是为众多技术应用奠定功能性自组装材料基础的基础。

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《Advanced Functional Materials》 |2011年第7期|p.1210-1211|共2页
作者
Paolo Samori; Ana Helman; Fabio Biscarini; Franco Cacialli;
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作者单位

Nanochemistry Laboratory, ISIS - CNRS 7006,University de Strasbourg,& alle"e Gaspard Monge 67000 Strasbourg, France;

Physical and Engineering Sciences Unit (PESC) -European Science Foundation (ESF)1 quai Lezay-Marnesia 67080 Strasbourg, France;

CNR-lnstitute for the Study of Nanostructured Materials Via Gobetti 101, 40129 Bologna, Italy;

Department of Physics and Astronomy(CMMP Group) and London Centre for Nanotechnology, University College London Gower Street, London, UK;

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机译：掌握不同长度尺度的功能材料的自组织

Mastering Self-Organization of Functional Materials at Different Length Scale

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