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The top of Pioneer Hall through vibrant fall leaves on the trees.

Michael S. Crosser

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Michael S. Crosser
Professor


Graf Hall 217A

503-883-2425

mcrosse@linfield.edu

I study how charges move through atomically thin materials, such as . I regularly collaborate with students to collect and analyze data. Most recently, I have created a science podcast called "."

Education

  • B.S., physics and mathematics, Centre College, Danville, KY
  • Ph.D., physics, Michigan State University, East Lansing, MI

Academic interests:

Studying the transport properties of graphene field-effect transistors (GFETs) to be used as biosensors.

Publications:

A. Brown, M. S. Crosser, A. C. Ulibarri, C. V. Fengel, and E. D. Minot, “Hall-effect measurements of the double-layer capacitance of the graphene-electrolyte interface”, J. Phys. Chem. C. 123, 22706 (2019)

M. A. Brown, M. S. Crosser, M. R. Leyden, Y. Qi, and E. D. Minot, “Measurement of high carrier mobility in graphene in an aqueous electrolyte environment”, Appl. Phys. Lett. 109, 093104 (2016)

M. S. Crosser, M. A. Brown, P. L. McEuen, and E. D. Minot, “Determination of the thermal noise limit of graphene biotransistors”, NanoLetters 15 (8), 5404-5407 (2015)

M.S. Crosser, S. Scott, A. Clark, and P.M. Wilt, “On the magnetic field near the center of Helmholtz coils”, Rev. Sci. Instrum. 81, 084701 (2010)

M.S. Crosser, J. Huang, F. Pierre, P. Virtanen, T.T. Heikkilä, F.K. Wilhelm, and N. O. Birge, “Nonequilibrium transport in mesoscopic multi-terminal SNS Josephson junctions”, Phys. Rev. B 77, 014528 (2008).

M.S. Crosser, P. Virtanen, T.T. Heikkilä, and N. O. Birge, “Supercurrent-induced temperature gradient in a nonequilibrium SNS Josephson junction”, Phys Rev. Lett. 96, 167004 (2006).