Clinical Use and Impact Of Innovative Information Technology Tools
We have created a clinical information tool for clinicians to use while caring for patients that integrates with our electronic health records and is used by 5000 clinicians at Penn a month. There are opportunities to research the effects of its use and impact at Penn both on clinician experience as well ass patient experience/outcomes.
Mitchell Lab - Overcoming Biological Barriers To Drug Delivery
Our research lies at the interface of biomaterials science, drug delivery, and cellular and molecular bioengineering to fundamentally understand and therapeutically target biological barriers.
Orthopaedic Joint Development and Tissue Engineering
We have several projects in cell lineage tracing, stem cell biology, mechanobiology, joint development, and tissue repair.
Soft and Origami Robotics
We are interested in how compliant mechanisms improve robot performance.
Machine Learning for Social Science Research
Economics + machine learning
Programmable Integrated Photonics
Intersection between photonics and quantum materials for next generation of photonic communication and computation.
Understanding and controlling how cells work using synthetic biology
The Bugaj Lab studies how cells make decisions, and we build molecular tools to study and control cell function for basic and therapeutic application.
Dynamic Autonomy and Intelligent Robotics
As amazing as they are, modern robots are still afraid of touching the world! We work on control, modeling, and learning algorithms to enable robots to achieve human-like performance in locomotion and manipulation.
Developmental Engineering and Single-Cell Analysis
The Hughes lab uses chemical biology and microfluidics techniques to study tissue and developmental biology.
Novel electrode technologies for bioelectronics and brain-computer interfaces
Neuroengineering, Bioelectronics, Brain-computer interfaces, Materials Science, Nanotechnology