Nanoplasmonics has provided a way to control light with extremely high precision, into nanoscale volumes. In many circumstances, the nanoplasmonic devices which can be realised are fabricated using processing techniques which rely on planar technologies. This thesis provides a general method to make nanoplasmonic devices on a flexible membrane structure, which can be free standing, extremely thin (less than the wavelength of visible light), but retains the ability to be manipulated without loss of optical function. These devices are very pliant and conformable. Flexibility allows the integration of nanoplasmonic devices into many new applications where curved surfaces or the ability to conform to another object is required, as well as prov...
Numerous living organisms possess biophotonic nanostructures that provide colouration and other dive...
The design and application of surface-based nanoplasmonic sensors has spurred broad interest from th...
Thesis (Ph. D.)--Massachusetts Institute of Technology, Dept. of Electrical Engineering and Computer...
ADF acknowledges support from EPSRC (EP/I004602/1 and EP/J004200/1).In this paper we present the des...
Photonic membranes (PMs) are thin, highly-flexible, membranes which can be imbued with specific phot...
We demonstrate a method to add photonic functionalities to the tip of hollow photonic crystal bres, ...
In the last decade well known materials such as metals and silicon have emerged as new materials for...
Plasmonic nanostructures have played a significant role in the field of nanotechnology due to their ...
This chapter is dedicated to nanoplasmonic sensing systems made compatible with studies of artificia...
Nanophotonics is the study of interactions between nanoscale structures and light. It has greatly ex...
Nanophotonics deals with the interaction of light with matter in nanometer scale. One of the subsets...
Discovering the properties of individual biological particles is in its early stages. Parallel advan...
Collective (lattice) localized surface plasmons (cLSP) with actively tunable and extremely narrow sp...
Within life science, there is currently an intense search for novel techniques that enable efficient...
Thesis (Ph.D.)--Boston UniversityDevelopment of low cost nanolithography tools for precisely creatin...
Numerous living organisms possess biophotonic nanostructures that provide colouration and other dive...
The design and application of surface-based nanoplasmonic sensors has spurred broad interest from th...
Thesis (Ph. D.)--Massachusetts Institute of Technology, Dept. of Electrical Engineering and Computer...
ADF acknowledges support from EPSRC (EP/I004602/1 and EP/J004200/1).In this paper we present the des...
Photonic membranes (PMs) are thin, highly-flexible, membranes which can be imbued with specific phot...
We demonstrate a method to add photonic functionalities to the tip of hollow photonic crystal bres, ...
In the last decade well known materials such as metals and silicon have emerged as new materials for...
Plasmonic nanostructures have played a significant role in the field of nanotechnology due to their ...
This chapter is dedicated to nanoplasmonic sensing systems made compatible with studies of artificia...
Nanophotonics is the study of interactions between nanoscale structures and light. It has greatly ex...
Nanophotonics deals with the interaction of light with matter in nanometer scale. One of the subsets...
Discovering the properties of individual biological particles is in its early stages. Parallel advan...
Collective (lattice) localized surface plasmons (cLSP) with actively tunable and extremely narrow sp...
Within life science, there is currently an intense search for novel techniques that enable efficient...
Thesis (Ph.D.)--Boston UniversityDevelopment of low cost nanolithography tools for precisely creatin...
Numerous living organisms possess biophotonic nanostructures that provide colouration and other dive...
The design and application of surface-based nanoplasmonic sensors has spurred broad interest from th...
Thesis (Ph. D.)--Massachusetts Institute of Technology, Dept. of Electrical Engineering and Computer...