Inspired by nature and its ability to form well-defined architectures on the nanoscale, this chapter investigates not only examples of hybrid nanostructured materials that utilize the building blocks of nature, such as DNA, biopolymers, and bilayers, but also of biomimicry
A post-nanotechnology concept has been assigned to an emerging concept, nanoarchitectonics. Nanoarch...
Biological molecules and systems have a number of attributes that make them highly suitable for nano...
Self-assembly is an abundant process in nature and is vital to many processes in livin...
There is much interest in using biological structures for the fabrication of new functional material...
There is much interest in using biological structures for the fabrication of new functional material...
Biomimetics has paved the way toward new materials and technologies inspired in Nature. Biomolecules...
International audienceThe drastic downscaling of devices in the semiconductor industry is currently ...
Synthetically designed biomaterials strive to recapitulate and mimic the complex environment of natu...
Nature has inspired the development of many life-like materials. Although still simplistic, key biol...
By using properties of biomolecules such as self-assembly and molecular recognition, a biological ap...
This book focuses on the use of bio-inspired and biomimetic methods for the fabrication and activati...
This dossier explores bio-inspired and biomimetic nanomaterials, differentiating between bio-inspire...
This chapter contains sections on Building Blocks; Inorganic Building Blocks; Nucleation and Growth;...
Supramolecular chemistry is an exciting area of science that plays a central role in bringing differ...
AbstractStructural DNA nanotechnology consists of combining unusual DNA motifs by specific structura...
A post-nanotechnology concept has been assigned to an emerging concept, nanoarchitectonics. Nanoarch...
Biological molecules and systems have a number of attributes that make them highly suitable for nano...
Self-assembly is an abundant process in nature and is vital to many processes in livin...
There is much interest in using biological structures for the fabrication of new functional material...
There is much interest in using biological structures for the fabrication of new functional material...
Biomimetics has paved the way toward new materials and technologies inspired in Nature. Biomolecules...
International audienceThe drastic downscaling of devices in the semiconductor industry is currently ...
Synthetically designed biomaterials strive to recapitulate and mimic the complex environment of natu...
Nature has inspired the development of many life-like materials. Although still simplistic, key biol...
By using properties of biomolecules such as self-assembly and molecular recognition, a biological ap...
This book focuses on the use of bio-inspired and biomimetic methods for the fabrication and activati...
This dossier explores bio-inspired and biomimetic nanomaterials, differentiating between bio-inspire...
This chapter contains sections on Building Blocks; Inorganic Building Blocks; Nucleation and Growth;...
Supramolecular chemistry is an exciting area of science that plays a central role in bringing differ...
AbstractStructural DNA nanotechnology consists of combining unusual DNA motifs by specific structura...
A post-nanotechnology concept has been assigned to an emerging concept, nanoarchitectonics. Nanoarch...
Biological molecules and systems have a number of attributes that make them highly suitable for nano...
Self-assembly is an abundant process in nature and is vital to many processes in livin...
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