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properties and great promise for various applications, including energy storage, supercapacitors, gas sensors and photovoltaics. The goal of the PhD program is to perform systematic experimental and
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•Nanofabrication and demonstration of optoelectronic devices (e.g., LEDs, infrared cameras, and gas sensors)•Optical and multiphysics simulations (e.g., Lumerical FDTD, COMSOL)We offer a collaborative and supportive
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of quantum dots, 1D/2D materials, and organics•Nanofabrication and demonstration of optoelectronic devices (e.g., LEDs, infrared cameras, and gas sensors)•Optical and multiphysics simulations (e.g., Lumerical
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investigate physical and chemical properties of nanomaterials and compounds, whether they will be used as coatings for smart windows, for gas sensors, photocatalytic coatings, and spintronics
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/InstituteRadboudumcCountryNetherlandsCityNijmegenPostal Code6525 GAStreetGeert Grooteplein-Zuid 10Geofield Contact City Nijmegen Website http://www.radboudumc.nl/ Street Geert Grooteplein-Zuid 10 Postal Code 6525 GA STATUS: EXPIRED X (formerly Twitter
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performance and their scalability on a vessel. The PhD candidate will address these challenges by setting up performance monitoring systems using cost effective sensors and IoT devices. To enhance assessment
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DTU Tenure Track Researcher in Low-Noise Supercontinuum Lasers and Supercontinuum Laser based Opt...
, based on gas-filled hollow-core fibers, silica and soft-glass fibers, such as fluoride and chalcogenide fibers, that we make in-house. Specifically you will design, develop, and characterize low-noise
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? Then this PhD position is for you! Quantum technologies are based on uniquely quantum effects. Among them, sensors using oscillating mechanical systems are especially promising: they can advance
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! With your work, you will expand the family of quantum sensors and open new applications for levitated systems — from gas sensing to probing physics beyond the Standard Model. You will join a diverse
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ambitious benchmarks for reducing Greenhouse Gas emissions in international shipping, aiming for a 30-40% reduction by 2030, 80-90% by 2040, and achieving net-zero emissions by 2045, all relative to 2008