Add to ORKGThe carbon nanotube-liquid-crystal (CNT-LC) nanophotonic device is a class of device based on the hybrid combination of a sparse array of multiwall carbon nanotube electrodes grown on a silicon surface in a liquid-crystal cell. The multiwall carbon nanotubes act as individual electrode sites that spawn an electric-field profile, dictating the refractive index profile within the liquid crystal and hence creating a series of graded index profiles, which form various optical elements such as a simple microlens array. We present the refractive index and therefore phase modulation capabilities of a CNT-LC nanophotonic device with experimental results as well as computer modeling and potential applications
Carbon nanotube (CNT)-doped polymer-stabilised blue phase (PSBP) liquid crystal cells driven by an i...
Size- and aggregation-controlled dispersion of thin multiwalled carbon nanotube (t-MWCNT) in negativ...
Liquid crystals are of technological interest as they allow for optical effects which can be electri...
We present electro-optic characteristics of a transparent nanophotonic device fabricated on quartz s...
This chapter discusses the background knowledge and provides a literature review of carbon-nanotubes...
A new liquid crystal device structure has been developed using a vertically grown Multi-Wall Carbon ...
[[abstract]]The electrooptical characteristics of carbon nanotube-doped liquid crystal (LC) devices ...
In this paper, a new kind of electrically controlled liquid crystal lens, which respond in a relativ...
This paper reports the modeling and characterization of interdigitated rows of carbon nanotube elect...
Reconfigurable liquid crystal microlenses employing arrays of multiwalled carbon nanotubes (MWNTs) h...
This paper presents experimental optimization of number and geometry of nanotube electrodes in a liq...
Abstract—This paper reports the modeling and characterization of interdigitated rows of carbon nanot...
In this study, we have chemically modified multi-walled carbon nanotubes (MWNTs) with different side...
Liquid crystals can be easily aligned in desired directions by treated surfaces or by external field...
Reconfigurable liquid crystal microlenses employing arrays of multiwalled carbon nanotubes (MWNTs) h...
Carbon nanotube (CNT)-doped polymer-stabilised blue phase (PSBP) liquid crystal cells driven by an i...
Size- and aggregation-controlled dispersion of thin multiwalled carbon nanotube (t-MWCNT) in negativ...
Liquid crystals are of technological interest as they allow for optical effects which can be electri...
We present electro-optic characteristics of a transparent nanophotonic device fabricated on quartz s...
This chapter discusses the background knowledge and provides a literature review of carbon-nanotubes...
A new liquid crystal device structure has been developed using a vertically grown Multi-Wall Carbon ...
[[abstract]]The electrooptical characteristics of carbon nanotube-doped liquid crystal (LC) devices ...
In this paper, a new kind of electrically controlled liquid crystal lens, which respond in a relativ...
This paper reports the modeling and characterization of interdigitated rows of carbon nanotube elect...
Reconfigurable liquid crystal microlenses employing arrays of multiwalled carbon nanotubes (MWNTs) h...
This paper presents experimental optimization of number and geometry of nanotube electrodes in a liq...
Abstract—This paper reports the modeling and characterization of interdigitated rows of carbon nanot...
In this study, we have chemically modified multi-walled carbon nanotubes (MWNTs) with different side...
Liquid crystals can be easily aligned in desired directions by treated surfaces or by external field...
Reconfigurable liquid crystal microlenses employing arrays of multiwalled carbon nanotubes (MWNTs) h...
Carbon nanotube (CNT)-doped polymer-stabilised blue phase (PSBP) liquid crystal cells driven by an i...
Size- and aggregation-controlled dispersion of thin multiwalled carbon nanotube (t-MWCNT) in negativ...
Liquid crystals are of technological interest as they allow for optical effects which can be electri...