Our institute spans two campuses in Stuttgart and Tübingen, working together toward a common goal: advancing the frontiers of artificial intelligence and robotics. By combining our expertise, we explore the fundamental principles of intelligent systems from multiple perspectives.

Scientists at our Stuttgart site focus on the physical realization of intelligent systems, researching in the fields of robotic materials, haptic intelligence, soft robotics, and bio-inspired robotics.

PhD Position (m/f/div) Embodied Intelligence through Material, Mechanics and Computation

Max Planck Research Groups Cyborg Robotics and Intelligent Sensing, led by Dr. Antonia Georgopoulou and Mechanics for Intelligent Structures, led by Dr. Renate Sachse are looking for a PhD candidate to join a new collaborative project that combines the groups’ expertise bridging in stimuli responsive material, fabrication, mechanics and design.

Description

This project focuses on the development of embodied intelligence in robotic materials and design, investigating how adaptive and stimuli-responsive materials, combined with engineered geometry and fabrication methods can produce robotic systems whose behavior emerges from the interaction between material properties, structure, and environment. Rather than relying on complex sensing hardware and computational control, we aim to explore how sensing, actuation, and feedback can be embedded directly within material systems, enabling intrinsic and simulation-informed adaptation. Through mechanical simulation, inverse design, and additive manufacturing, the project aims to predict, design, and fabricate soft robotic systems with programmable deformation and emergent behavior, ranging from simple single-material actuators to multi-material, multi-responsive systems capable of complex environmental interaction.

Specific research directions and activities include:

• Develop computational and inverse-design methods from structural mechanics to model and predict the behavior of stimuli-responsive materials, linking material properties, geometry, and environmental inputs to targeted deformation and functional response.
• Design and fabricate soft robotic systems using additive manufacturing and multi-material design strategies, focusing on how structural geometry and material composition can be engineered to produce targeted, programmable deformation and actuation behavior.
• Develop and implement finite element–based and reduced-order models to capture nonlinear deformation, coupled multiphysics behavior, and material–structure interaction in soft robotic systems.
• Investigate and implement stimuli-responsive and adaptive materials (e.g. polymers and material gradients), exploring how their intrinsic physical properties can be leveraged to enable sensing, feedback, and actuation directly within the material system.

Education & Experience

• Master’s degree in mechanical engineering, materials science, or a closely related field
• Strong written and spoken English communication skills
• Prior research experience demonstrated through a Master’s thesis, research project, or equivalent academic work
• Experience with academic writing and/or research dissemination (e.g. thesis, reports, publications, or equivalent outputs)
• Strong motivation to engage in interdisciplinary research at the interface of materials, mechanics, fabrication, robotics, and computational design.
• Willingness to develop new experimental, computational, and fabrication skills throughout the course of the PhD
• Interest in collaborative, research-driven environments and experimental design methodologies
• Background or strong interest in mechanics, simulation, and additive manufacturing is highly desirable, but not a must.

Expected start dates and duration

The preferred start date is September 1, 2026. The position is funded for 3 years.

Our offer

• An international, multidisciplinary, and highly motivating working environment
• Extensive mentoring, supervision, and career-planning support from two PIs
• Access to state-of-the-art lab facilities, including advanced fabrication and testing equipment
• Collaborations with world-leading research groups at MPI-IS and beyond
• Networking opportunities through conferences, seminars, and research visits
• Competitive salaries and fully funded positions
• Financial contribution to the job ticket (ÖPNV)

Application

Applications should be submitted via our online . Please upload the following documents directly to the system: a curriculum vitae (in English), a cover letter, academic transcripts from your current or most recent degree program, and contact information for two to three academic or professional references.

The application deadline is June 15, 2026.

For further information about the position, please contact Dr. Renate Sachse and Dr. Antonia Georgopoulou at and .

The Max Planck Society is committed to increasing the number of individuals with disabilities in its workforce and therefore encourages applications from such qualified individuals. The Max Planck Society strives for gender equality and diversity. Furthermore, the Max Planck Society seeks to increase the number of women and non-binary individuals in those areas where they are underrepresented and therefore explicitly encourages them to apply.

Closing date for applications

The posting is open until filled.