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PhD scholarship in Mid-Infrared Frequency Comb Technology for High-Sensitivity Sensing – DTU Electro
partners. Responsibilities and qualifications Your main focus will be to strengthen the department’s expertise in ultrafast lasers and frequency combs while developing innovative solutions for high
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capabilities. Excellent written and oral communication skills in English. You must have a two-year master's degree (120 ECTS points) or a similar degree with an academic level equivalent to a two-year master's
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completed an English language-based Master's programme (or an equivalent educational achievement in English) shall provide documentation that they have passed one of the following official tests with
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. The PhD student is expected to be willing and able to contribute to the Centre for Journalism achieving two strategic goals: 1) To produce original research of high international quality, and 2) to exchange
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the turbulent boundary layer over the built environment using PALM-4U. You will work under the primary supervision of Associate Professor Holger Hundborg Koss (hoko@dtu.dk ) and nearby colleagues at DTU and
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, integration of actuation mechanisms will enable us to adjust the position of the implant. Your main contribution in this project will be the design and microfabrication of the flexible microelectrode array
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diets. Phd project The primary objective of the PhD project is to develop and apply advanced analytical chemistry methodologies based on HPLC-ICPMS and advanced LC-MS techniques to characterise
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content in foods and communicating the results to the public, we invite you to apply for the position and to join the dynamic research teams involved in MICROSUNSET. Research on vitamin D The primary
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research. Qualification requirements PhD stipends are allocated to individuals who hold a Master's degree. PhD stipends are normally for a period of 3 years. It is a prerequisite for allocation of
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optical methods or PCR are employed. Your main contribution in this project will be the design and microfabrication of the 3D carbon electrodes, exploring processes such as thin film deposition