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Guilhabert, Benoit Jack Eloi
University of Strathclyde
in Cooperation with on an Cooperation-Score of 37%
Topics
Publications (11/11 displayed)
- 2020Suspension and transfer printing of ZnCdMgSe membranes from an InP substrate
- 2020Automated nanoscale absolute accuracy alignment system for transfer printingcitations
- 2019Amplifying organic semiconductor waveguide based nanocrystal sensor
- 2017InGaN µLEDs integrated onto colloidal quantum dot functionalised ultra-thin glasscitations
- 2017Gb/s visible light communications with colloidal quantum dot color converterscitations
- 2013Highly-photostable and mechanically flexible all-organic semiconductor laserscitations
- 2012Colloidal quantum dot nanocomposites for visible wavelength conversion of modulated optical signalscitations
- 2010Amplified spontaneous emission in free-standing membranes incorporating star-shaped monodisperse π-conjugated truxene oligomerscitations
- 2009Free-standing light-emitting organic nanocomposite membranes
- 2008Integration by self-aligned writing of nanocrystal/epoxy composites on InGaN micropixelated light-emitting diodescitations
- 2008Individually-addressable flip-chip AllnGaN micropixelated light emitting diode arrays with high continuous and nanosecond output powercitations
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document
Amplifying organic semiconductor waveguide based nanocrystal sensor
Abstract
We demonstrate an optical sensor that consists of an amplifying organic semiconductor waveguide with a protective polymer cladding for photostability. Sensing is achieved by evanescence of the guided amplified spontaneous emission (ASE) combining high signal levels at detection with simplicity of implementation. We show correlations between the presence and concentration of colloidal semiconductor nanoparticles on the cladding surface and changes in both the ASE threshold and the optical gain.