Journal
ACS NANO
Volume 11, Issue 5, Pages 4777-4784Publisher
AMER CHEMICAL SOC
DOI: 10.1021/acsnano.7b01089
Keywords
biomimetic; nacre; bidirectional freezing; superstretchable; interfacial engineering
Categories
Funding
- National Natural Science Foundation of China [51603182, 21674098]
- 1000 Youth Talents Plan of China
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Through designing hierarchical structures, particularly optimizing the chemical and architectural interactions at its inorganic/organic interface, nacre has achieved an excellent combination of contradictory mechanical properties such as strength and toughness, which is highly demanded yet difficult to achieve by most synthetic materials. Most techniques applied to develop nacre-mimetic composites have been focused on mimicking the brick-and-mortar structure, but the interfacial architectural features, especially the asperities and mineral bridges of bricks, have been rarely concerned, which are of equal importance for enhancing mechanical properties of nacre. Here, we used a modified bidirectional freezing method followed by uniaxial pressing and chemical reduction to assemble a nacre-mimetic graphene/poly(vinyl alcohol) composite film, with both asperities and bridges introduced in addition to the lamellar layers to mimic the interfacial architectural interactions found in nacre. As such, we have developed a composite film that is not only strong (up to similar to 150.9 MPa), but also tough (up to similar to 43.50 MJ/m(3)), and highly stretchable (up to similar to 10.44%), difficult to obtain by other methods. This was all achieved by only interfacial architectural engineering within the traditional brick-and-mortar structure, without introducing a third component or employing chemical cross-linker as in some other nacre-mimetic systems. More importantly, we believe that the design principles and processing strategies reported here can also be applied to other material systems to develop strong and stretchable materials.
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