Innovating Works

IOFFE INSTITUTE

Desconocido
El-Peacetolero: Embedded Electronic solutions for Polymer Innovative Scanning Tools using Light Emitting devices for... IOFFE PHYSICOTECHNICAL INSTITUTE OF THE RUSSIAN ACADEMY OF SCIENCES participó en un H2020: NFRP-2019-2020 El-Peacetolero’s overarching ambition is to design a TRL 7 hand-held, low power, embedded optoelectronic system that can deploy AI for in-si...
2020-05-14 - 2025-02-28 | Financiado
EURIZON: European network for developing new horizons for RIs IOFFE PHYSICOTECHNICAL INSTITUTE OF THE RUSSIAN ACADEMY OF SCIENCES participó en un H2020: H2020-INFRASUPP-2018-2020 This EURIZON project proposal is about European scientific and technical collaboration in the field of research infrastructures (RIs), and i...
2020-01-17 - 2025-04-30 | Financiado
4PHOTON: Novel Quantum Emitters monolithically grown on Si Ge and III V substrates IOFFE PHYSICOTECHNICAL INSTITUTE OF THE RUSSIAN ACADEMY OF SCIENCES participó en un H2020: H2020-MSCA-ITN-2016 We propose to forge a partnership between the leading European groups working on the next generation of solid state quantum emitters based o...
2016-08-12 - 2021-06-30 | Financiado
MULTIPLY: International Mobility and Training in Photonics Programme IOFFE PHYSICOTECHNICAL INSTITUTE OF THE RUSSIAN ACADEMY OF SCIENCES participó en un H2020: H2020-MSCA-COFUND-2015 The aims of the proposed International Mobility and Training in Photonics programme, MULTIPLY, are to facilitate worldwide mobility and offe...
2016-04-22 - 2022-09-30 | Financiado
El-Peacetolero: Embedded Electronic solutions for Polymer Innovative Scanning Tools using Light Emitting devices for... IOFFE PHYSICOTECHNICAL INSTITUTE OF THE RUSSIAN ACADEMY OF SCIENCES participó en un FP6: NFRP-2019-2020 El-Peacetolero’s overarching ambition is to design a TRL 7 hand-held, low power, embedded optoelectronic system that can deploy AI for in-si...
2020-09-01 - 2024-08-31 | Financiado
Materials Nanomech: Nanomechanics of defects in solids applications to nanolayers nanoparticles nanocrystals and biom... IOFFE PHYSICOTECHNICAL INSTITUTE OF THE RUSSIAN ACADEMY OF SCIENCES tramitó un FP7: The aim of the proposed project is to continue the research on a general nanomechanics of defects framework for the understanding and predic...
Financiado
R2M-SI: Roll to Module processed Crystalline Silicon Thin Films for higher than 20 efficient modules IOFFE PHYSICOTECHNICAL INSTITUTE OF THE RUSSIAN ACADEMY OF SCIENCES participó en un FP7: The current technologies to produce photovoltaic modules exhibit features, which prevent cost-reduction to below 0,5€/Wp: - Sawing/Wafering...
Financiado
SPANGL4Q: Spin Photon Angular Momentum Transfer for Quantum Enabled Technologies IOFFE PHYSICOTECHNICAL INSTITUTE OF THE RUSSIAN ACADEMY OF SCIENCES participó en un FP7: The goal of this project is the development of a suite of nanophotonic devices that interface with spins, for application in quantum informa...
Financiado
THERMOMAG: Nanostructured energy harvesting thermoelectrics based on Mg2Si IOFFE PHYSICOTECHNICAL INSTITUTE OF THE RUSSIAN ACADEMY OF SCIENCES participó en un FP7: The core concept of the ThermoMag project revolves around developing and delivering new energy-harvesting thermoelectric materials and proof...
Financiado
VISIT: VISIT Vertically Integrated Systems for Information Transfer IOFFE PHYSICOTECHNICAL INSTITUTE OF THE RUSSIAN ACADEMY OF SCIENCES participó en un FP7: The proposed STREP focuses on strategic, high-value photonic components and subsystems for scalable economic broadband access and local area...
Financiado
NEWLED: Nanostructured Efficient White LEDs based on short period superlattices and quantum dots IOFFE PHYSICOTECHNICAL INSTITUTE OF THE RUSSIAN ACADEMY OF SCIENCES participó en un FP7: NEWLED will develop high efficiency and high brightness monolithic and hybrid all-semiconductor WHITE light-emitting GaN-based diodes. Power...
Financiado
NANORAY: Development of a X Ray tube based on the Field Emission properties of Carbon Nanotubes NANORAY aims to realize an innovative device capable to generate X-rays by means of a novel concept of cold cathode, based on carbon nanotub...
Financiado
SPIN-OPTRONICS: Spin effects for quantum optoelectronics IOFFE PHYSICOTECHNICAL INSTITUTE OF THE RUSSIAN ACADEMY OF SCIENCES participó en un FP7: We propose to join the forces of ten leading European teams in order to achieve a critical mass in the new research field of Spin-Optronics,...
Financiado
MINIGAS: Miniaturised photoacoustic gas sensor based on patented interferometric readout and novel photonic i... IOFFE PHYSICOTECHNICAL INSTITUTE OF THE RUSSIAN ACADEMY OF SCIENCES participó en un FP7: High-sensitivity gas sensors measure the presence of trace gases. They have a wide range of applications. Finnish SME Gasera has recently de...
Financiado
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