Sort by
Refine Your Search
-
Listed
-
Category
-
Country
-
Employer
-
Field
-
conventional approaches with greener solutions adapt microelectronics processes to REC² materials, functionalities, and applications, and evaluate and optimize them for sustainability research direct fabrication
-
will be part of the ELCA (Electronic Circuits and Architectures) group in the Microelectronics Department. The ELCA group conducts world-leading research in RF and mixed-signal integrated circuits
-
whom you will work You will be supervised by Masoud Babaie and Robert Bogdan Staszewski and will be part of the ELCA (Electronic Circuits and Architectures) group in the Microelectronics Department
-
of Operating Microelectronic Devices by X-ray Diffraction Microscopy Beamline ID01, at the ESRF is a world leading instrument dedicated to micro- and nano-beam X-ray diffraction imaging experiments. It enables
-
of microelectronics and problem solving would be appreciated Specific Requirements Possibility for remote work 2 days a week LanguagesENGLISHLevelExcellent LanguagesFRENCHLevelGood Research FieldEngineeringYears
-
bulk antiferromagnets. Switchable antiferromagnetic multistate devices hold strong potential for enabling a paradigm shift from charge-based to spin-based microelectronics. We will investigate powder and
-
of the Electronic Circuits and Architectures (ELCA) section within the Department of Microelectronics at TU Delft. ELCA leads cutting-edge research in integrated circuit design, enhancing power
-
/ Partnerships Partners of the PEPR DIADEM – CINEMA project funding this PhD: IRCER, Institut P’, ILM https://www.pepr-diadem.fr/projet/cinema-2/ Scientific Field and Context The optimization of growth–property
-
Carl von Ossietzky University of Oldenburg • | Oldenburg Oldenburg, Niedersachsen | Germany | 2 days ago
on research fields, such as Neurosensory Science and Systems (University of Oldenburg) https://uol.de/en/phd-neurosensory-science-2 Auditory Sciences: Physics and Engineering, Physiology and Therapy of Hearing
-
multiphysics approaches and ionic in-body communication instantiated by dedicated microelectronic hardware. Preclinical in-vitro and in-vivo testing of devices and methods will allow real world validation