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- Chalmers University of Technology
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materials – including Raman, atomic force microscopy, and scanning electron microscopy, running reactors such as CSTRs to run various processes. and exfoliation of graphite into graphene using solution-based
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Technology (EIT) at Lund University, The Faculty of Engineering (LTH), is one of the larger departments with about 120 employees and conducts research and teaching mainly in electrical engineering and computer
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are Professor Mika Pettersson and Dr. Andreas Johansson at the Department of Chemistry and Nanoscience Center (JYU). The project deals with the development of a novel nerve-machine interface built from graphene
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employees and conducts research and teaching mainly in electrical engineering and computer technology. We are located on LTH's campus in northern Lund. At the Division of Electromagnetics and Nanoelectronics
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instrumentation often located at synchrotron facilities. We have recently developed operando cells which can perform XPS measurements at > 1 bar pressure by using graphene membranes as X-ray and electron
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Offer Description The electronic structure of two-dimensional (2D) materials can be selectively modified by controlling their strain, thereby opening new perspectives in microelectronics. In this context
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, graphene-based structures, intrinsic, or artificially created defects in them, or [hetero]structures derived from them); perform, analyze, and interpret electronic-structure calculations using suitable
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instrumentation often located at synchrotron facilities. We have recently developed operando cells which can perform XPS measurements at > 1 bar pressure by using graphene membranes as X-ray and electron
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Thermodynamics of Nanoscale Devices, led by Janine Splettstoesser. The project focuses on terahertz quantum sensing with bilayer graphene quantum dots in resonators and is part of the FLAG-ERA ThinQ collaboration
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printing Design and development of novel (3D/4D) electronic devices and rechargeable batteries by AM process Nanocomposite formulating, including optimization of compounding procedures, particle loading, and