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Biological composites—complex structures for functional diversity
Biological composites—complex structures for functional diversity
by Fratzl, Peter , Eder, Michaela , Amini, Shahrouz
in Biocompatible Materials - chemical synthesis / Biocompatible Materials - chemistry / Bioengineering / Biological products / Composite materials / Green Chemistry Technology / Minerals / Minerals - chemistry / Polysaccharides / Protein structure / Proteins - chemistry / Repellency / Rigidity / Saccharides / Sugars - chemistry / Sustainable materials / Teeth
2018
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Biological composites—complex structures for functional diversity
by Fratzl, Peter , Eder, Michaela , Amini, Shahrouz
in Biocompatible Materials - chemical synthesis / Biocompatible Materials - chemistry / Bioengineering / Biological products / Composite materials / Green Chemistry Technology / Minerals / Minerals - chemistry / Polysaccharides / Protein structure / Proteins - chemistry / Repellency / Rigidity / Saccharides / Sugars - chemistry / Sustainable materials / Teeth
2018
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Biological composites—complex structures for functional diversity
Biological composites—complex structures for functional diversity
by Fratzl, Peter , Eder, Michaela , Amini, Shahrouz
in Biocompatible Materials - chemical synthesis / Biocompatible Materials - chemistry / Bioengineering / Biological products / Composite materials / Green Chemistry Technology / Minerals / Minerals - chemistry / Polysaccharides / Protein structure / Proteins - chemistry / Repellency / Rigidity / Saccharides / Sugars - chemistry / Sustainable materials / Teeth
2018

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Biological composites—complex structures for functional diversity
Biological composites—complex structures for functional diversity
Journal Article

Biological composites—complex structures for functional diversity

Fratzl, Peter,
Eder, Michaela,
Amini, Shahrouz
2018
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Overview
The bulk of Earth’s biological materials consist of few base substances—essentially proteins, polysaccharides, and minerals—that assemble into large varieties of structures. Multifunctionality arises naturally from this structural complexity: An example is the combination of rigidity and flexibility in protein-based teeth of the squid sucker ring. Other examples are time-delayed actuation in plant seed pods triggered by environmental signals, such as fire and water, and surface nanostructures that combine light manipulation with mechanical protection or water repellency. Bioinspired engineering transfers some of these structural principles into technically more relevant base materials to obtain new, often unexpected combinations of material properties. Less appreciated is the huge potential of using bioinspired structural complexity to avoid unnecessary chemical diversity, enabling easier recycling and, thus, a more sustainable materials economy.
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Publisher
The American Association for the Advancement of Science
Subject

Biocompatible Materials - chemical synthesis

/ Biocompatible Materials - chemistry

/ Bioengineering

/ Biological products

/ Composite materials

/ Green Chemistry Technology

/ Minerals

/ Minerals - chemistry

/ Polysaccharides

/ Protein structure

/ Proteins - chemistry

/ Repellency

/ Rigidity

/ Saccharides

/ Sugars - chemistry

/ Sustainable materials

/ Teeth

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