John Frostad
Associate Professor, Chemical and Biological Engineering (joint appointment with Chemical and Biological Engineering)
604–827–5192
Chemical & Biological Engineering Building 233, 2360 East Mall
University of California, Santa Barbara, PhD
University of Washington, BS
Interfacial Phenomena, Functional Foods, Emulsions and Foams, Novel Instrumentation, Complex Fluids
For information about research positions please see: https://www.grad.ubc.ca/researcher/15618-frostad
See Google Scholar for a full list of publications.
Frostad, J.M., Tammaro, D., Santollani, L., Bochner de Araujo, S., Fuller, G.G. Dynamic fluid-film interferometry as a predictor of bulk foam properties. – Soft Matter 12, 9266-9279 (2016). (Featured on Cover).
Noyes, A., Basha, J., Frostad, J.M., Millard, D., Mullin, J., LaCasse, D., Wright, R.S., Cook, S., Huffman, B., Fahrner, R., Godavarti, R., Titchener-Hooker, N., Sunasara, K., Mukhopadhyay, T. A modular approach for the ultra scale-down of depth filtration. Journal of Membrane Science. – in press doi:10.1016/j.memsci.2015.07.010 (2015).
Frostad, J.M., Collins, M.C., Leal, L.G. Direct measurement of the interaction of model food emulsion droplets adhering by arrested coalescence. Colloids and Surfaces A: Physicochemical and Engineering Aspects 441, 459465 (2014).
Frostad, J.M., Seth M., Bernasek, S.M., Leal, L.G. Direct measurement of interaction forces between charged, multilamellar vesicles. Soft Matter 10, 7769-80 (2014).
Frostad, J.M., Collins, M.C., Leal, L.G. Cantilevered-capillary force apparatus for measuring multi-phase fluid interactions. Langmuir 29, 47154725 (2013).
Frostad, J.M., Walter, J., Leal, L.G. A scaling relation for the capillary-pressure driven drainage of thin films. Physics of Fluids 25, 052108 (2013).
Tagged with: Faculty, Food Nutrition and Health, Food Science, Master of Food Science