Opals consist of an ordered array of SiO2 spheres. This leads to a modulation of the refractive index and hence photonic stop bands behaviour over the visible/IR range of the electro-magnetic spectrum. The exact position of the stop bands depends on the size of the silica spheres. However, the refractive index contrast between the SiO2 spheres and air spaces is not great enough to open up a full photonic band gap (PBG), only the pseudogap. To increase the contrast the air spaces are filled with a material of high refractive index such as InP or GaP. To further increase the contrast the SiO2 is removed leaving a III-V framework as the inverse opal structure.By use of MOCVD we have been able to infill opals with InP and GaP to such a level th...
The growth of high-quality stoichiometric indium phosphide by atmospheric pressure metal±organic che...
The growth of high-quality stoichiometric indium phosphide by atmospheric pressure metal±organic che...
By forming anatase TiO2 inverse opals by infiltration of an opal photonic crystal, we demonstrate th...
Opals consist of an ordered array of SiO2 spheres. This leads to a modulation of the refractive inde...
Opals consist of an ordered array of SiO2 spheres. This leads to a modulation of the refractive inde...
Opals consist of an ordered array of SiO2 spheres. This leads to a modulation of the refractive inde...
We describe the use of novel MOCVD methods designed to infill templated structures based upon synthe...
We describe the use of novel MOCVD methods designed to infill templated structures based upon synthe...
We describe the use of novel MOCVD methods designed to infill templated structures based upon synth...
We describe the use of novel MOCVD methods designed to infill templated structures based upon synth...
Photonic crystal thin films were fabricated via the self-assembly of a lattice of silica spheres on ...
Photonic crystal thin films were fabricated via the self-assembly of a lattice of silica spheres on ...
Photonic crystal thin films were fabricated via the self-assembly of a lattice of silica spheres on ...
Inverse opals, a major type of self-assembled structures, provide good examples of photonic crystals...
The growth of high-quality stoichiometric indium phosphide by atmospheric pressure metal±organic che...
The growth of high-quality stoichiometric indium phosphide by atmospheric pressure metal±organic che...
The growth of high-quality stoichiometric indium phosphide by atmospheric pressure metal±organic che...
By forming anatase TiO2 inverse opals by infiltration of an opal photonic crystal, we demonstrate th...
Opals consist of an ordered array of SiO2 spheres. This leads to a modulation of the refractive inde...
Opals consist of an ordered array of SiO2 spheres. This leads to a modulation of the refractive inde...
Opals consist of an ordered array of SiO2 spheres. This leads to a modulation of the refractive inde...
We describe the use of novel MOCVD methods designed to infill templated structures based upon synthe...
We describe the use of novel MOCVD methods designed to infill templated structures based upon synthe...
We describe the use of novel MOCVD methods designed to infill templated structures based upon synth...
We describe the use of novel MOCVD methods designed to infill templated structures based upon synth...
Photonic crystal thin films were fabricated via the self-assembly of a lattice of silica spheres on ...
Photonic crystal thin films were fabricated via the self-assembly of a lattice of silica spheres on ...
Photonic crystal thin films were fabricated via the self-assembly of a lattice of silica spheres on ...
Inverse opals, a major type of self-assembled structures, provide good examples of photonic crystals...
The growth of high-quality stoichiometric indium phosphide by atmospheric pressure metal±organic che...
The growth of high-quality stoichiometric indium phosphide by atmospheric pressure metal±organic che...
The growth of high-quality stoichiometric indium phosphide by atmospheric pressure metal±organic che...
By forming anatase TiO2 inverse opals by infiltration of an opal photonic crystal, we demonstrate th...
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