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. The successful candidate will be joining the Functional Optoelectronic Nanomaterials group led by Prof. Dr. Gerasimos Konstantatos who is looking for a postdoctoral candidate to develop chip-integrated infrared
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with a focus on III-V CQDs The aim of the project is to optimize the material properties as well as the device stack on a die level followed by integration of the optimum QD stack on a full image sensor
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in the specialist area (30), other PhD (10) • Motivation letter (max. 20) • Related experience (max. 30) The minimum score to pass the selection process : 70/100 points. Selection process An interview
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breast cancer dormancy as a collective emergent phenomenon using biomaterials-based dormancy-on-a-chip devices. In this project, you will model in vitro breast cancer micro-units applying biophysical
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breast cancer dormancy as a collective emergent phenomenon using biomaterials-based dormancy-on-a-chip devices. In this project, you will model in vitro breast cancer micro-units applying biophysical
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to the candidate's vision for their future research activity. To pass the second phase a minimum score of 15 points will be necessary. To pass the selective process, a minimum of 65 points must be reached. If there is
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experience of the candidate, as evaluated by the members of the reviewing committee. The project has received funding from the HORIZON-JU-Chips-2024-2-RIA-T2, from MICIU/AEI /10.13039/501100011033 and Co
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classical photonic processing to quantum communication, sensing, and metrology. On-chip quantum key distribution transmitters, entangled pair sources and single photon sources are also important topics in
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. The successful candidate will be joining the Quantum Nano-Optoelectronics group led by Prof. Dr. Frank Koppens and will design graphene-based terahertz receivers and evaluate speed and bit transfer rate. Funded by