Dan Strickland

Daniel G Strickland, Ph.D. Candidate Department of Mechanical Engineering Stanford University Adviser: Professor Juan G. Santiago Lab: Stanford Microfluidics Laboratory CV

Contact

dan.strickland@stanford.edu
440 Escondido Mall, Bldg 530, Rm 224, Stanford, CA 94305-3030

Education

• Ph.D., Mechanical Engineering, Stanford University, June 2010 (expected)

• M.S., Mechanical Engineering, Stanford University, June 2008

• B.S, Mechanical Engineering, Seattle University, June 2006

Research Interests

• Active water management strategies in proton exchange membrane fuel cells

• Porous polymers for passive PEM fuel cell water management

• Concentration polarization in electroosmotic pumps

• Electrolytic micropumps for drug delivery

Journal Publications

In Preparation and Submitted

• Daniel G Strickland and Juan G Santiago. Integrated wicks for passive internal and pre-humidification of dry gasses in PEM fuel cells. (In Preparation)

• Daniel G Strickland, David Fenning, and Juan G Santiago. Porous polymer monoliths as wick structures in electromechanical devices. (In Preparation)

Published and In Press

• Daniel G Strickland, Matthew E Suss, Thomas A Zangle, and Juan G Santiago. Evidence shows concentration polarization and its propagation can be key factors determining electroosmotic pump performance. Sensors and Actuators B, (In Press), 2009, doi:10.1016/j.snb.2009.10.005. (pdf)

• Daniel G Strickland and Juan G Santiago. In situ polymerized wicks for passive water management in PEM fuel cells. Journal of Power Sources, (In Press) Sept 2009, doi:10.1016/j.jpowsour.2009.09.034. (pdf)

• Daniel G Strickland, Shawn Litster, and Juan G Santiago. Current distribution in polymer electrolyte membrane fuel cell with active water management. Journal of Power Sources, 174(1) p 272-281, Nov 2007. (pdf)

Conference

• Daniel G Strickland and Juan G Santiago. In-situ polymerized wicks for passive water management and humidification of dry gases. ECS Vienna, Austria (Accepted). (paper)

• Daniel G Strickland, David Fenning, Shawn E Litster, and Juan G Santiago. In-situ polymerized wicks for passive water management in PEM fuel cell systems. ASME 2009 3rd International Conference of Energy Sustainability, Jul 2009. (abstract) (presentation)

• Daniel Strickland, Thomas Zangle, and Juan Santiago. Visualization of concentration polarization generated by electroosmotic pumps. ECS San Francisco, CA, May 2009. (abstract) (presentation)

• Daniel G Strickland, David Fenning, Shawn E Litster, and Juan G Santiago. In-situ polymerized wicks for water management in large-scale PEM fuel cell systems. Gordon Research Conference - Fuel Cells, Jul 20-25, 2008. (poster)