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. ETRO, the Department of Electronics and Informatics (http://www.etrovub.be/) of the Vrije Universiteit Brussel (VUB), performs fundamental and applied research in Micro- & Optoelectronics
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to future nano-electronics and nano-spintronics applications, particularly, focus on topological materials, Dirac materials, 2D van der Waals materials, correlated systems, and high-Tc superconductors
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biology (cryo-electron microscopy direction), metabolomics, chemical biology, nano-biomaterials and cellular tissue engineering, proteomics, DNA damage and repair, genome editing, molecular bio-breeding
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interdisciplinary researchers. MS-RADAM aims to advance the understanding of key radiation-induced biodamage phenomena at the nano- and larger scales, with applications in particle therapy, radiotherapy, and
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interdisciplinary researchers. MS-RADAM aims to advance the understanding of key radiation-induced biodamage phenomena at the nano- and larger scales, with applications in particle therapy, radiotherapy, and
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research environment and direct access to world-class nanofabrication facilities. At the Division of Applied Quantum Physics (AQP), we work on theoretical aspects of future high-performance nano-electronic
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Faculty Positions in School of Al for Science / School of Electronic and Computer Engineering, PKUSZ
Circuit Science and Engineering Focus Areas: Full Professor or Tenure-track Assistant Professor in analog circuit design, Micro/Nano Electronic Devices, or Electronic Design Automation. Computer Science and
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of Applied Quantum Physics (AQP), we work on theoretical aspects of future high-performance nano-electronic systems. Our research covers a broad spectrum, from fundamental problems to very applied ones. We
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mode and encodes arbitrary quantum information within the logical subspace. At the Applied Quantum Physics Laboratory (AQPL) , we work on theoretical aspects of future high-performance nano-electronic
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chimique des molécules de jonction. Grâce à notre nouvelle approche de nano-optique par sonde à balayage, combinée à une approche utilisant des jonctions tunnel moléculaires de grande surface, nous sommes en