A partner in form of Joint research. This is an agreement on cooperation between the parties on research and development on an equal level (Synergy and international partnership, EU H2020 funding application).
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OPTOFLUIDIC DYE LASER FOR EFFICIENT ENERGY HARVESTINGTech for Transfer TTO 18-01-2016 Bio-inspired optofluidic dye laser based on DNA scaffolds with an extremely efficient energy transfer even when using an unusually low acceptor concentration. Biophotonics Lasers Optical measurement systems & Sensors Tell me more |
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CONVERTING CO2 INTO BIOFUEL USING ALGAE AND OPTICAL FIBERSTech for Transfer TTO 18-01-2016 Photobioreactor for converting CO2 directly into biofuel that uses evanescent-light excitation of photosynthetic algae grown around optical fibers. Biophotonics Fiber Optics Optical Engineering Tell me more |
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NANOIMPRINTING PROCESS FOR SILK PHOTONIC CRYSTALSTech for Transfer TTO 18-01-2016 Processing of a biopolymer into photonic structures using nanocontact imprinting for the realization of entirely organic biophotonic nanomaterials and devices. Biophotonics Nanophotonics Photonic Crystals Tell me more |
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CMOS-INTEGRABLE PHOTODIODE IN POLYSILICONTech for Transfer TTO 19-01-2016 CMOS-compatible photodiode in polycrystalline silicon eliminates the need for expensive silicon-on-insulator wafers and the complexity of integrating germanium on silicon. Optical measurement systems & Sensors Semiconductors Photodetection Tell me more |
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HIGH-SPEED, LOW-POWER ELECTRO-OPTIC SWITCHTech for Transfer TTO 19-01-2016 Electro-optic switch based on a ring resonator with a PIN junction, resulting in low power requirements and very fast switching speeds. Quantum Optics Optoelectronics Tell me more |
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VERSATILE TECHNIQUE FOR GROWING SINGLE-LAYER NANOSTRUCTURESTech for Transfer TTO 19-01-2016 This technology presents a rapid and versatile method of growing epitaxial silicon on top of single-crystal substrates. This method combines soft-matter self-assembly with pulsed laser irradiation to direct and design intricate complex nanopatterned crystalline inorganic materials that can be used in optoelectronic applications such as sensors, catalysis, and energy conversion. Nanophotonics Semiconductors Thin-Film Materials Tell me more |
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OPTICALLY CONTROLLED PHOTONIC SWITCHTech for Transfer TTO 19-01-2016 A fast, all optical switch on silicon using highly light-confining resonating structures to enhance the sensitivity of light to small changes in refractive index. Non-Linear Optics Quantum Optics Optoelectronics Semiconductors Tell me more |
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WAFER-SCALE BILAYER GRAPHENETech for Transfer TTO 19-01-2016 This technology presents a method of producing uniform multilayer graphene films that are greater than a square centimeter in area. Multilayer graphene is deposited by a single CVD process, eliminating the need to produce multiple separate monolayers followed by stacking. With this method, the size of fabricated bilayer graphene film is only limited by the synthesis apparatus, and can be readily scaled up, enabling wafer-scale graphene electronics and photonics. Thin-Film Materials Tell me more |
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OPTICAL WAVEGUIDES ON BULK SILICONTech for Transfer TTO 19-01-2016 Novel fabrication method for optical silicon waveguides on ordinary silicon wafers. Semiconductors Waveguides Tell me more |
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GIGAHERTZ-SPEED SILICON ELECTRO-OPTIC MODULATORTech for Transfer TTO 19-01-2016 Micrometer-scale, gigahertz-speed silicon electro-optical switch comprised of a high-Q resonator coupled to a waveguide for optoelectronic applications. Optical Components & Devices Semiconductors Optical Communications Tell me more |
