Bridging the gap between living systems and machines
At the Freeman Lab
Innovation
is in our DNA
We engineer living and synthetic materials to accelerate healthier outcomes for global communities
At the Freeman Lab - Innovation is in our DNA
We take the blueprint of nature to apply materials science to innovate better products to provide a better quality of life.
Learn about what we’re doing with DNA
Building-block design featuring
Hierarchical Self-Assembly
Organizing nanoscale components into macroscale systems
Temporal Structural Reconfiguration
In response to biomolecular recognition, chemical or physical changes
Adaptive Behavior
Integration of structural and chemical feedback loops to orchestrate functionality
Hierarchical Self-Assembly
Organizing nanoscale components into macroscale systems
Temporal Structural Reconfiguration
In response to biomolecular recognition, chemical or physical changes
Adaptive Behavior
Integration of structural and chemical feedback loops to orchestrate functionality
Supramolecular Engineering
Nature provides a vast array of biological systems, mechanisms and phenomena. We look to this arrangement of natural diversity for inspiration to the implementation of organic answers to complex biomedical needs through synthetic technologies and techniques.
By taking inspiration from nature, we are able to imitate the systems, mechanisms and phenomena we observe. Through this imitation, we are able to bring synthetic and living systems to work together in concert.
With the knowledge we are able to gather through successful imitation of natural phenomena, we can then share with the world, inform of our findings and instruct scientific development across multiple disciplines.
By applying our research, instructing the convergence of disciplines, we are able to induce healthier outcomes for those in desperate need of biomedical breakthroughs for quality-of-life improvement.
Shaping the future with peptide assembly
Shaping the future with peptide assembly
Innovation
is in our DNA
We engineer living and synthetic materials to accelerate healthier outcomes for global communities
