**Job Description**
This funded postdoctoral project focuses on investigating the mechanobiological response of murine articular cartilage and intervertebral discs. The research will utilize a novel robotic platform, featuring the SOLANO miniaturized hexapod robot, to replicate physiological loading conditions compatible with advanced microscopy techniques. The role involves robotic development and integration for high-precision, dynamic biomechanical testing, including improving actuation control, synchronizing with imaging systems, and developing customized physiological loading protocols. This interdisciplinary effort aims to uncover micro- and nanoscale deformation mechanisms in tissue environments under healthy and pathological conditions, with experimental data informing multiscale numerical models of tissue mechanotransduction.
**Skills & Abilities**
• Strong programming skills
• Strong communication skills
• Ability to work in an interdisciplinary environment
• Interest in translational research at the interface of mechanics, biology, and medical devices
• Experience with microscopy and image analysis (a plus)
**Qualifications**
Required Degree(s) in:
• Biomechanics
• Mechanical Engineering
• Robotics
• Bioengineering
**Experience**
Other:
• Recent (≤2 years) PhD in a relevant field
• Strong background in experimental biomechanics and/or robotics
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