Innovating Works

INSTITUTE OF SOLID STATE PHYSICS, UNIVER...

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FeLow-D: LOW DIMENSIONAL FERROELECTRICS FOR ADVANCED ELECTRONIC AND BIOMEDICAL DEVICES The FeLow-D project at the Institute of Solid-State Physics of the University of Latvia (ISSP UL) aims to boost research in low-dimensional...
2024-10-23 - 2029-10-31 | financed
ToEQPL: Towards an excellence centre on quantum photonics in Latvia LATVIJAS UNIVERSITATES CIETVIELU FIZIKAS INSTITUTS processed a HORIZON EUROPE HORIZON-WIDERA-2023-ACCESS-02 The field of quantum technology is experiencing rapid development, with groundbreaking advancements. By establishing the Quantum Flagship in...
2024-05-21 - 2027-08-31 | financed
SWEB: Smart Windows for Zero Energy Buildings LATVIJAS UNIVERSITATES CIETVIELU FIZIKAS INSTITUTS processed a HORIZON EUROPE HORIZON-WIDERA-2022-TALENTS-01 Smart windows for zero energy buildings (SWEB) will rely on a variety of innovative smart windows (SW) solutions and products to meet the ma...
2022-10-26 - 2027-12-31 | financed
PHORMIC: Wafer scale platform for Photonic Programmable Multipurpose Integrated Circuits PHORMIC establishes a European platform for next-generation programmable photonic chips with a low adoption threshold for product developers...
2022-06-23 - 2026-09-30 | financed
EUROfusion: Implementation of activities described in the Roadmap to Fusion during Horizon Europe through a join... LATVIJAS UNIVERSITATES CIETVIELU FIZIKAS INSTITUTS participó en un HORIZON EUROPE EUROfusion’s updated Fusion Research Roadmap aims to acquire the necessary knowledge to start constructing a demonstration fusion power plan...
2021-12-07 - 2025-12-31 | financed
RADON: Irradiation driven nanofabrication computational modelling versus experiment LATVIJAS UNIVERSITATES CIETVIELU FIZIKAS INSTITUTS participó en un H2020 H2020-MSCA-RISE-2019 RADON delivers a state of the art programme which addresses the needs of both research and industry communities working on the advancement o...
2019-11-27 - 2025-07-31 | financed
CO2EXIDE: CO2 based Electrosynthesis of ethylene oXIDE LATVIJAS UNIVERSITATES CIETVIELU FIZIKAS INSTITUTS participó en un H2020 H2020-IND-CE-2016-17 The CO2EXIDE project aims at the development of a combined electrochemical-chemical technology for the simultaneous 200% conversion of CO2 t...
2017-12-12 - 2021-06-30 | financed
CAMART2: Centre of Advanced Materials Research and Technology Transfer CAMART LATVIJAS UNIVERSITATES CIETVIELU FIZIKAS INSTITUTS processed a H2020 H2020-WIDESPREAD-2016-2017 "CAMART² (‘Excellence Centre of Advanced Material Research and Technology Transfer’) project is aimed to upgrade the existing Centre of Exce...
2017-02-13 - 2025-01-31 | financed
assymcurv: The influence of the cell membrane asymmetry and curvature on the functioning of membrane proteins a... LATVIJAS UNIVERSITATES CIETVIELU FIZIKAS INSTITUTS participó en un H2020 H2020-MSCA-RISE-2015 Real cell membranes are essentially asymmetric and non-planar. Outer leaflets of the plasma membranes contain neutral lipids and glycolipids...
2015-12-08 - 2019-12-31 | financed
CAMART2: CAMART2 LATVIJAS UNIVERSITATES CIETVIELU FIZIKAS INSTITUTS processed a H2020 H2020-WIDESPREAD-2014-2015 The proposed project CAMART2 is aimed to upgrade the existing Excellence Centre of Advanced Material Research and Technology at the Institut...
2015-05-07 - 2016-05-31 | financed
EUROfusion: Implementation of activities described in the Roadmap to Fusion during Horizon 2020 through a Joint... LATVIJAS UNIVERSITATES CIETVIELU FIZIKAS INSTITUTS participó en un H2020 EURATOM-2024-NUCLEAR-Prize A Roadmap to the realization of fusion energy was adopted by the EFDA system at the end of 2012. The roadmap aims at achieving all the neces...
2014-09-30 - 2022-12-31 | financed
EUROfusion: Implementation of activities described in the Roadmap to Fusion during Horizon 2020 through a Joint... LATVIJAS UNIVERSITATES CIETVIELU FIZIKAS INSTITUTS participó en un FP6 A Roadmap to the realization of fusion energy was adopted by the EFDA system at the end of 2012. The roadmap aims at achieving all the neces...
2014-01-01 - 2022-12-31 | financed
DECNAHED: Development of Composite Nanomaterials for Hydrogen Energy Devices LATVIJAS UNIVERSITATES CIETVIELU FIZIKAS INSTITUTS processed a FP7 This project will deal with development of new materials for emerging hydrogen and fuel cell technologies using nanotechnology approach. Mai...
financed
GREEN-CC: Graded Membranes for Energy Efficient New Generation Carbon Capture Process LATVIJAS UNIVERSITATES CIETVIELU FIZIKAS INSTITUTS participó en un FP7 Major sources for human made CO2 emissions comprise the energy and the industrial sector including cement production. One of the most approp...
financed
NASA-OTM: NAnostructured Surface Activated ultra thin Oxygen Transport Membrane LATVIJAS UNIVERSITATES CIETVIELU FIZIKAS INSTITUTS participó en un FP7 The main objective of the proposed project is the development and industry-driven evaluation of highly stable and highly oxygen-permeable na...
financed
F-BRIDGE: Basic Research for Innovative Fuels Design for GEN IV systems LATVIJAS UNIVERSITATES CIETVIELU FIZIKAS INSTITUTS participó en un FP7 Up to now fuel development and qualification has been a long and expensive process essentially based on an empirical approach. European expe...
financed
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