Do Rosario JJ, Lilleodden ET, Waleczek M, Kubrin R, Petrov AY, Dyachenko PN, Sabisch JEC, Nielsch K, Huber N, Eich M, Schneider GA (2015)
Publication Type: Journal article
Publication year: 2015
Book Volume: 17
Pages Range: 1420-1424
Journal Issue: 10
Researchers show that mechanical metamaterials based on ceramic inverse opaline structures with densities in the range of 330-910 kgm-3 are suitable as photonic crystals and have better stiffness- and compressive strength-to-weight ratios as compared to microfabricated optimized strut-based structures. The stiffness- and compressive strength-to-weight ratios are also lower than carbon nanoframes fabricated by interference lithography. Pure silica inverse opal structures and silica inverse opals whose pores have been internally coated by a thin TiO
APA:
Do Rosario, J.J., Lilleodden, E.T., Waleczek, M., Kubrin, R., Petrov, A.Y., Dyachenko, P.N.,... Schneider, G.A. (2015). Self-Assembled Ultra High Strength, Ultra Stiff Mechanical Metamaterials Based on Inverse Opals. Advanced Engineering Materials, 17(10), 1420-1424. https://doi.org/10.1002/adem.201500118
MLA:
Do Rosario, Jefferson J., et al. "Self-Assembled Ultra High Strength, Ultra Stiff Mechanical Metamaterials Based on Inverse Opals." Advanced Engineering Materials 17.10 (2015): 1420-1424.
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