INM

The engineering of (bio)hybrid materials requires in-depth characterization of their mechanical and thermal properties at different time scales and in-operando conditions. The Core Facility Mechanical and Thermal Characterization is pivotal for our institute by providing deep understa

The engineering of (bio)hybrid materials requires in-depth characterization of their mechanical and thermal properties at different time scales and in-operando conditions. The Core Facility Mechanical and Thermal Characterization is pivotal for our institute by providing deep understa

A focus of our research are Engineered Living Materials (ELMs) an emergent class of materials at the interface between materials science and synthetic biology with huge potential for sustainable innovation in different technological fields. The multidisciplinary component of our resea

A focus of our research are Engineered Living Materials (ELMs) an emergent class of materials at the interface between materials science and synthetic biology with huge potential for sustainable innovation in different technological fields. The multidisciplinary component of our resea

A focus of our research are Engineered Living Materials (ELMs) an emergent class of materials at the interface between materials science and synthetic biology with huge potential for sustainable innovation in different technological and medical fields. Our institute develops safe-by-d

A focus of our research are Engineered Living Materials (ELMs) an emergent class of materials at the interface between materials science and synthetic biology with huge potential for sustainable innovation in different technological and medical fields. Our institute develops safe-by-d

A focus of our research are Engineered Living Materials (ELMs) an emergent class of materials at the interface between materials science and synthetic biology with huge potential for sustainable innovation in different technological fields. The multidisciplinary component of our resea

A focus of our research are Engineered Living Materials (ELMs) an emergent class of materials at the interface between materials science and synthetic biology with huge potential for sustainable innovation in different technological fields. The multidisciplinary component of our resea

Desired starting date: April 1st 2026 (or sooner) salary level E13 TV-L 60% (with potential increase during the project) contract limited to three years (with possible extension). As a Ph.D. student you would graduate from Saarland University.Your tasksSynthesis and characterization o

Desired starting date: April 1st 2026 (or sooner) salary level E13 TV-L 60% (with potential increase during the project) contract limited to three years (with possible extension). As a Ph.D. student you would graduate from Saarland University.Your tasksSynthesis and characterization o

INMs research group Immuno-Materials combines expertise from synthetic biology biomaterials and immunology to develop new approaches for studying and regulating immune reactions. Are you a master student (f/m/d) with a background in cell biology biomaterials or biophysics (or related

INMs research group Immuno-Materials combines expertise from synthetic biology biomaterials and immunology to develop new approaches for studying and regulating immune reactions. Are you a master student (f/m/d) with a background in cell biology biomaterials or biophysics (or related

The Innovative Electron Microscopy Department is developing and applying electron microscopy methodologies for nanoscale and atomic-resolution characterization of soft functional materials and their interfaces using a synergy of materials science and biological electron microscopy app

The Innovative Electron Microscopy Department is developing and applying electron microscopy methodologies for nanoscale and atomic-resolution characterization of soft functional materials and their interfaces using a synergy of materials science and biological electron microscopy app