The past four years, from November 2016 to April 2021, scientists from the Hipernav project researched how to improve surgical navigation by combining articifial intelligence, augemented reality, computer vision and mathematical modeling. This european digital health project aimed at changing liver cancer surgery, while focusing on training the next generation of young researchers and doctors.
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Politecnico di Milano: Innovative training network secures 3.9 million for early career researcher education
Politecnico di Milano is part of 2Exciting. This network, coordinated by Thomas Heine, Professor of Theoretical Chemistry at TU Dresden, Germany, aims to develop the next generation of scientists with high level skills and understanding of the rapidly evolving field of nano - optoelectronics, the study and applications of electronic devices that interact with light in 2D materials, specifically, layers of semiconductors a few atoms thick.
The goal of 2Exciting is training early career researchers in an unmatched combination of scientific and complementary skills. The trainees will study the fundamental physics of the light-matter interaction in two-dimensional semiconductor materials to develop innovative optoelectronic devices for telecommunications and next
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IMAGE: Due to the strong light-matter interaction at the nano (2D) scale, scientists can find new ways of controlling electrical and optical properties and develop strategies to artificially tailor the optoelectronic. view more
Credit: 2Exciting
The trainees will study the fundamental physics of the light-matter interaction in two-dimensional semiconductor materials to develop innovative optoelectronic devices for telecommunications and next generation technology applications. 2Exciting was granted a budget of 3.92 million under Horizon 2020 Marie Sk?odowska-Curie Action, Innovative Training Network Programme.
Technology based on atomically thin, two-dimensional semiconductors (2DS) will underpin the next generation of innovations in computing, energy, and beyond. Due to the strong light-matter interaction at the nano (2D) scale, scientists can find new ways of controlling electrical and optical properties and develop strategies to artificially tailor the opto
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