29.05.25 | Vollzeit | Erlangen | Friedrich-Alexander-Universität Erlangen-NürnbergAufgaben The project follows a DFG-funded research project over three years. It links between optical and mechanical engineering and cellular muscle technologies with the aim to study cellular reactions of skeletal muscle cells and whole tissue subjected to various high hydrostatic pressure (HHP) profiles
Später ansehen29.05.25 | Vollzeit | Erlangen | Friedrich-Alexander-Universität Erlangen-NürnbergAufgaben The project follows a DFG-funded research project over three years. It links between optical and mechanical engineering and cellular muscle technologies with the aim to study cellular reactions of skeletal muscle cells and whole tissue subjected to various high hydrostatic pressure (HHP) profiles
Später ansehen29.05.25 | Vollzeit | Erlangen | Friedrich-Alexander-Universität Erlangen-NürnbergAufgaben The project follows a DFG-funded research project over three years. It links between optical and mechanical engineering and cellular muscle technologies with the aim to study cellular reactions of skeletal muscle cells and whole tissue subjected to various high hydrostatic pressure (HHP) profiles
Später ansehen29.05.25 | Vollzeit | Erlangen | Friedrich-Alexander-Universität Erlangen-NürnbergAufgaben The project follows a DFG-funded research project over three years. It links between optical and mechanical engineering and cellular muscle technologies with the aim to study cellular reactions of skeletal muscle cells and whole tissue subjected to various high hydrostatic pressure (HHP) profiles
Später ansehen29.05.25 | Vollzeit | Erlangen | Friedrich-Alexander-Universität Erlangen-NürnbergAufgaben The project follows a DFG-funded research project over three years. It links between optical and mechanical engineering and cellular muscle technologies with the aim to study cellular reactions of skeletal muscle cells and whole tissue subjected to various high hydrostatic pressure (HHP) profiles
Später ansehen29.05.25 | Vollzeit | Erlangen | Friedrich-Alexander-Universität Erlangen-NürnbergAufgaben The project follows a DFG-funded research project over three years. It links between optical and mechanical engineering and cellular muscle technologies with the aim to study cellular reactions of skeletal muscle cells and whole tissue subjected to various high hydrostatic pressure (HHP) profiles
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08.05.25 | Vollzeit | Erlangen | Fraunhofer-Institut für Integrierte Schaltungen IISWill be supported by our team in project management, evaluation and series transfer. What you bring to the table Completed scientific university degree in electrical engineering, physics or a comparable field of study At least 4 years of professional experience in circuit development Sound knowledge of analog
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