**Job Description**
This Ph.D. project focuses on the experimental realization and study of artificial microswimmers/microrobots that can move and interact autonomously in 3D environments, mimicking complex dynamics of microorganisms. The research aims to understand and replicate these life-like dynamics in synthetic systems, deriving design principles for constructing smart, adaptive microsystems potentially useful for targeted drug delivery, cargo transport, biosensing, microfluidic mixing, or self-healing materials. The role involves working in an interdisciplinary environment with state-of-the-art equipment.
**Skills & Abilities**
• Prior experience with experimental techniques, especially in optical microscopy and colloidal particle synthesis (preferred).
• Working knowledge or hands-on experience with Python, ImageJ, and/or MATLAB for image processing and data analysis (highly beneficial).
• Excellent written and spoken communication skills in English.
**Qualifications**
Required Degree(s) in:
• (Applied) Physics
• Chemistry
• Biophysics
• Chemical Engineering
• Materials Engineering
• Mechanical Engineering (particularly if thesis work involved soft matter)
**Experience**
Other:
• Prior experience with experimental techniques (optical microscopy, colloidal particle synthesis) is a strong asset.
• Thesis work involving soft matter is beneficial for candidates with engineering backgrounds.
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