hide
Free keywords:
Gyroid structures
Gyroids
Metamaterials
Morphology
Photonic bandgap materials
Photonic crystals
Photonics
Block copolymers
Energy gap
Optical materials
Self assembly
Spontaneous emission
Constant mean curvatures
Constituent materials
Geometrical property
Gyroid structure
Optical metamaterials
Structured materials
Optical properties
Abstract:
The gyroid is a continuous and triply periodic cubic morphology which possesses a constant mean curvature surface across a range of volumetric fill fractions. Found in a variety of natural and synthetic systems which form through self-assembly, from butterfly wing scales to block copolymers, the gyroid also exhibits an inherent chirality not observed in any other similar morphologies. These unique geometrical properties impart to gyroid structured materials a host of interesting optical properties. Depending on the length scale on which the constituent materials are organised, these properties arise from starkly different physical mechanisms (such as a complete photonic bandgap for photonic crystals and a greatly depressed plasma frequency for optical metamaterials). This article reviews the theoretical predictions and experimental observations of the optical properties of two fundamental classes of gyroid structured materials: photonic crystals (wavelength scale) and metamaterials (sub-wavelength scale). Gyroids are chiral minimal surface morphologies which are found in a variety of natural and synthetic systems, ranging from butterfly wing scales to self-assembled block copolymers. The optical properties of gyroid structured materials are reviewed here on two fundamental length scales, which behave as either photonic crystals or optical metamaterials. © 2014 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim.
