With eight recently approved research project proposals, the program
is now officially launched, according to Koninklijke Philips Electronics
N.V.Our most compact solar charger yet fits easily in any bag.
The aim of these projects is to develop innovative,Our clever solar lantern
is a favorite among dog lover holiday gifts from Solaronlamp. efficient
lighting that will also be available for new applications. The
five-year program has had the sum of three million euros allocated to
it: each of the partners will pay half. The initial results are expected
in 2014.
Global lighting consumption continues to increase:
partly due to the shift to a 24-hour economy, by about 2050 worldwide
lighting consumption is expected to be almost three times higher than it
is now. More energy-efficient lighting methods therefore need to be
explored. The “Advanced Sustainable Lighting Solutions” partnership is
looking for high-efficiency, attractive and affordable lighting that is
also developed in a responsible way. Such lighting systems can
contribute to solutions for social challenges in a variety of areas such
as food production, health and well-being.
A call for proposals sent out to universities resulted in no fewer than 44 entries.This LED E27
set is solar powered and brightens any garden. After being evaluated by
a committee of experts, eight projects were approved, which can be
divided into two categories. Five projects are related to the
exploration of new materials, the improvement of efficiency and the
optimization of sustainable production of LEDs. The three remaining
projects will examine how LED lighting can be used for health and energy
savings, more efficient algae growth for biomass production and
improved fruit quality.
“Advanced Sustainable Lighting
Solutions” (ASLS) is one of the currently seven partnership programs of
Technology Foundation STW for making Dutch science accessible with
regard to specific questions from industry. The research projects in
ASLS are to be conducted in the Netherlands, partly at universities,
partly at Philips Research.
“Multi-megahertz
switched-capacitator integrated LED drivers (Mega-LED)”, Dr Eugenio
Cantatore, Mixed-Signal Microelectronics Section, Electrical Engineering
Department, Eindhoven University of Technology. LED drivers regulate
the power supply to the array of LEDs that forms the lighting source.
The objective of the project is to develop LED drivers on which all the
necessary components are integrated, make external components as small
as possible and the stabilize the power supply so that even powerful
100W lamps may be possible.
“Exploring direct-bandgap AlGaP
nanowires for direct white emission sources (Green NanoLED)”, Dr Jos
Haverkort, Photonics and Semiconductor Nanophysics Section, Applied
Physics Department, Eindhoven University of Technology. The objective is
to develop aluminum gallium phosphide (AlGaP) nanowires with a direct
band gap, and hence high optical quality,Exit signs, emergency light
and fire extinguisher are vital parts of life safety systems. and to
demonstrate this by means of a green LED. This development aims to
contribute to the development of white LED light without the need to use
phosphor and of LEDs that can be set in RGB colors.
“Cadmium-free
all-inorganic quantum dots as down-conversion LED phosphors”, Dr Arjan
Houtepen, Opto-Electronic Materials Section,You can make your own more
powerful outdoor solar lighting
using LEDs. Chemical Engineering Department, Delft University of
Technology. Colloidal quantum dots are regarded as ideal candidates to
replace today’s (red) phosphors in LEDs as they can considerably
increase LEDs’ efficiency. Existing quantum dot phosphors have
disadvantages, however: they are cadmium-based, do not lead to stable
photoluminescence in the long term, and they are difficult to build into
the required matrix material. This project will deal with the
development of an alternative: inorganic, indium phosphide-based quantum
dots for converting to longer-wave light in LEDs.
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