Short-wave Infrared Light emitters based on Colloidal Quantum Dot Technology
Optical sensing and imaging has evolved from taking digital images to a powerful metrology, imaging and data acquisition
technique by expanding the spectral coverage from the visible to the short-wave infrared (SWIR). SWIR sensing...
ver más
¿Tienes un proyecto y buscas un partner? Gracias a nuestro motor inteligente podemos recomendarte los mejores socios y ponerte en contacto con ellos. Te lo explicamos en este video
Proyectos interesantes
ECOSWIR
Short-wave infrared photodetectors based on low-cost, enviro...
181K€
Cerrado
PDC2021-120733-I00
EMISORES DE LUZ SWIR DE BAJO COSTE Y ALTO RENDIMIENTO HABILI...
120K€
Cerrado
POLIS
Pilot Optical Line for Imaging and Sensing
107M€
Cerrado
TEC2014-60084-R
CONVERTIDORES ACTIVOS COMPACTOS DE LONGITUD DE ONDA DE IMAGE...
102K€
Cerrado
FIS2015-72872-EXP
VISION A TRAVES DE MEDIOS TURBIOS Y EN BAJAS CONDICIONES DE...
73K€
Cerrado
TEC2017-88655-R
FOTODETECTORES INFRARROJOS BASADOS EN PUNTOS QUANTICOS Y MAT...
236K€
Cerrado
Información proyecto SWIRL
Duración del proyecto: 23 meses
Fecha Inicio: 2022-03-21
Fecha Fin: 2024-02-29
Descripción del proyecto
Optical sensing and imaging has evolved from taking digital images to a powerful metrology, imaging and data acquisition
technique by expanding the spectral coverage from the visible to the short-wave infrared (SWIR). SWIR sensing and
imaging is the cornerstone of advanced imaging techniques for 3D visualization, night vision, imaging though adverse
weather conditions, biomedical imaging, spectroscopy for food quality and health monitoring, just to name a few. The huge
market size of such applications, especially by entering volume markets including consumer electronics and automotive, has
led to the first commercial appearances of low cost CMOS compatible SWIR photodetectors and image sensors. Yet for the
realization of the afore-mentioned technologies the optical source is an equally important and crucial component to be
considered at system level. To date, there is a lack of infrared optical sources that are CMOS compatible, low-cost with
competitive performance over the standard costly epitaxial III-V light emitters. Moreover high cost and epitaxial growth
manufacturing processes have limited the size and form factor of those sources to small and rigid elements preventing their
use as high power and large area illumination sources. SWIRL will undertake this challenge to develop high performance
low-cost SWIR optical sources with tunable emission peaks and spectral bandwidths across the eye-safety SWIR window,
exploiting colloidal quantum dot technology. By leveraging engineering at the nanoscale and solution processed materials
we will develop in TRL4/5 SWIR optical emitters that are low-cost, high efficiency, even rivalling their epitaxial counterparts,
and spectrally versatile across the SWIR. We will further demonstrate their use in key applications related to automotive
industry as optical sources for active SWIR imaging and in-cabin monitoring in the eye-safety infrared window.