Add to ORKGImaging object details with length scales below approximately 200 nm has been historically difficult for conventional microscope objective lenses because of their inability to resolve features smaller than one-half the optical wavelength. Here we review some of the recent approaches to surpass this limit by harnessing self-assembly as a fabrication mechanism. Self-assembly can be used to form individual nano- and micro-lenses, as well as to form extended arrays of such lenses. These lenses have been shown to enable imaging with resolutions as small as 50 nm half-pitch using visible light, which is well below the Abbe diffraction limit. Furthermore, self-assembled nano-lenses can be used to boost contrast and signal levels from small nano-pa...
The development of top-down nanofabrication techniques has opened many possibilities for the design ...
Conway Festival of Research & Innovation, University College Dublin, 25-26 September 2019PEAR offers...
Nanotechnology is a fast growing field; engineering matters at the nano-meter scale. A key nanomater...
Lenses are by far the most simple tools for visualization. Although they are intrinsically limited i...
Nanostructured optical components, such as nanolenses, direct light at subwavelength scales to enabl...
Abstract—Challenges facing the scaling of microelectronics to sub-50 nm dimensions and the demanding...
The physical interaction between nanoscale objects and liquid interfaces can create unique optical p...
Three-dimensional (3D) optical microscopy based on integral imaging techniques is limited mainly by ...
Includes bibliographical references (page 25).Recent advances in nanotechnology and nanoscience have...
In this thesis we discuss the manufacture and characterisation of micro-optical elements, for guidin...
Impressive revolution of optical imaging and microscopy architectures has been expanding our horizon...
We present a simple and flexible approach for building a microsphere-based probe that can be used fo...
Nanophotonics, a novel optical technology, utilizes the local interaction between nanometric particl...
Nanotechnology is a fast growing field; engineering matters at the nano-meter scale. A key nanomater...
Sub-100 nm polymeric spherical plano-convex nano-lens arrays are fabricated using short electron bea...
The development of top-down nanofabrication techniques has opened many possibilities for the design ...
Conway Festival of Research & Innovation, University College Dublin, 25-26 September 2019PEAR offers...
Nanotechnology is a fast growing field; engineering matters at the nano-meter scale. A key nanomater...
Lenses are by far the most simple tools for visualization. Although they are intrinsically limited i...
Nanostructured optical components, such as nanolenses, direct light at subwavelength scales to enabl...
Abstract—Challenges facing the scaling of microelectronics to sub-50 nm dimensions and the demanding...
The physical interaction between nanoscale objects and liquid interfaces can create unique optical p...
Three-dimensional (3D) optical microscopy based on integral imaging techniques is limited mainly by ...
Includes bibliographical references (page 25).Recent advances in nanotechnology and nanoscience have...
In this thesis we discuss the manufacture and characterisation of micro-optical elements, for guidin...
Impressive revolution of optical imaging and microscopy architectures has been expanding our horizon...
We present a simple and flexible approach for building a microsphere-based probe that can be used fo...
Nanophotonics, a novel optical technology, utilizes the local interaction between nanometric particl...
Nanotechnology is a fast growing field; engineering matters at the nano-meter scale. A key nanomater...
Sub-100 nm polymeric spherical plano-convex nano-lens arrays are fabricated using short electron bea...
The development of top-down nanofabrication techniques has opened many possibilities for the design ...
Conway Festival of Research & Innovation, University College Dublin, 25-26 September 2019PEAR offers...
Nanotechnology is a fast growing field; engineering matters at the nano-meter scale. A key nanomater...