OPeraTIC: Boosting the adoption of Ultrashort Pulsed Laser large scale structuring with an agile, dexterous and efficient manufacturing platform
no public description
Automotive In-Mold Electronics Structures (AIMES)
AIMES is a collaborative feasibility addressing the challenges with development in-mold electronics or IME, for Zero Emission Vehicles and the wider automotive sector.
The project will improve the user experience in ZEVs through creation of smart surfaces, embedding electronics inside 3D surface materials, and enables further opportunities in integrated sensing control and communication electronics.
COVID continuity grant
no public description
PROMOTION – PRinted electronics: cost & Materials Optimised LED Lighting SoluTION
SME DesignLED's have a patented LED lighting technology which enables the uniform backlighting of overlay materials such as veneers or cloths. PROMOTION will deliver a scalable, cost-optimised revision delivered by a significant reduction in LED quantity.
SOLIDIFY - Built Environment Backlighting
Design LED Products have developed a thin, efficient, mechanically flexible LED lighting technology which enables large area lighting. Driven by innovations in surface optics, this project will deliver a positive leap performance, from which DLED will demonstrate large area, flexible LED lighting panels for integration in built environment sector.
VEHICLE – Vertically-intEgrated Homogeneous LumInance Colour Lighting Enterprise
The project objective is enabling the transition from 2D planar LED light-guides to 3D formed materials. In this feasibility study, innovative stretchable conductive materials will be employed with thermoforming processes and surface optics to demonstrate the potential of such 3D functional lighting to the automotive sector.
SoliS : Solid Surface Backlighting
Design LED Products have developed an thin, efficient, mechanically flexible LED lighting technology which enables large area lighting. Driven by innovations in surface optics, this project will deliver a positive leap performance, from which DLED will demonstrate large area, flexible LED lighting panels for integration with Solid Surface materials such as Corian.
MULTIPLY – Multi-wavelength ULtra-Thin uniformly Illuminating Photonic materiaLs
"The MULTIPLY project supports a feasibility study, bringing together DesignLED Products Ltd. (DLED) and the Institute of Photonics (IoP) at the University of Strathclyde to evaluate the potential integration of the materials under development at the IoP with the market driven Innovation at DLED.
The goal is evaluation of the materials under R&D at the IoP and integration of those materials in demonstrator(s) targeting the emerging needs of DLED's commercial customers."
Enabling Next-generation Lighting Manufacture in Europe
Awaiting Public Project Summary
Uniform embedded lighting films based on inorganic LEDs
Design LED Products have developed an thin, efficient, mechanically flexible LED lighting technology which enables large area lighting. Driven by radical innovations, this project will deliver a postive leap performance, from which DLED will demonstrate large area, flexible LED lighting panels.
TRANS SAFE
Awaiting Public Project Summary
Enhanced Display Viewability using High Efficiency Advanced LED Backlight Arrays
Awaiting Public Summary