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- Technical University of Denmark
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- Geological Survey of Denmark and Greenland (GEUS)
- Section for Computational and RNA Biology, Department of Biology, University of Copenhagen
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should hold a PhD degree in electrical engineering, aerospace engineering, mechanical engineering, computer engineering, computer science or similar. Required skills: Good programming skills in C
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localized and delocalized mechanisms that dynamically alter the detrapping and recombination probabilities. The aim of this project is to overcome these limitations by developing a Monte Carlo simulation
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with ferroelectrics PVD of ferroelectric metal oxides and/or oxygen ionic conductors. Experience with defective metal oxides and nanomaterials. Electrochemical characterization techniques (impedance
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Job Description Are you a mechatronics, mechanical, electrical engineer, or something similar who wants to have the opportunity to work on a project narrowing the gap between fundamental research
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seminars as part of an international, dynamic team. Your profile Applicants should have an interest in the molecular mechanisms of RNA modifications and how these could be targeted for therapeutic use
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datasets Lead projects on gene regulatory mechanisms that contribute to the development and disease Support research and development activities within the group Maintain accurate and detailed records
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simulation techniques and molecular mechanics principles (especially applied on water and hydrogen bonding systems). Thermodynamic modeling and applied physical chemistry for industrial applications. As a
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at the heterogeneous surface of single nanoparticles as catalytic reactions progress. Understanding of atomic mechanisms and kinetics to develop strategies for stabilizing uniquely active but metastable surface motifs
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expression is maintained. Among the overarching questions we address are the following: What are the mechanisms coupling transcription and mRNA processing? How is the state of mRNA translation, including
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cancer or relapse to identify genetic alterations that may be targetable with novel drugs. A main component of this project will be to characterize the genomic and transcriptomic landscape of our patient