Lightweight Porous Materials Using Capillary Foam

Highly networked liquid foam structures using water, air, oil and colloidal particles

Highly networked liquid foam structures using water, air, oil, and colloidal particles


Inventors at Georgia Tech have developed highly networked liquid foam structures using water, air, a water-immiscible solvent (oil), and colloidal particles. Standard frothing technologies can be applied to manufacture the foam. Many different types of oils (including standard solvents such as alkanes or silicone oil, and monomers such as trimethylolpropane trimethacrylate, TMPTMA) and many different types of particles (including polyvinyl chloride, polyethylene, polyvinylidene fluoride, silica, and cellulosic particles) can be used. It is even possible to make the entire foam biocompatible, biodegradable, or edible, and additional processing allows to tune the thermal and electric conductivity. Dyes optionally added to the oil phase can impart intense and uniform coloration to the foam that is not achievable with standard foams. Solid foams can be obtained by drying, and the choice of curable oils or incorporation of reactive components offers further options for reinforcement.



  • Easily attainable and economically feasible raw materials- water is used as the primary bulk fluid and the air is used as the bubble gas 
  • Ability to alter the porosity and strength levels of the foam structure
  • The customization option of adding dye to customize the color of the foam structure
  • Simple mixing and drying techniques are used to formulate and produce the capillary foam materials

Potential Commercial Applications

  • Building construction
  • Insulation
  • Specialty packaging
  • Personal care
  • Shock absorption
  • Facilitating the development of new materials in industries such as biomedicine, advanced electronics, or food processing

Contact Information

Georgia Tech Office of Technology Licensing