Sándor Volkán-Kacsó, PhD

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Associate Professor, Department of Computer Science, Engineering, Math, Physics, and Statistics

Phone: (626) 815-6000, Ext. 6614

Email: skacso@apu.edu

Office Location: Segerstrom Science Center, Room 105

Sándor Volkán-Kacsó is an associate professor in the Department of Computer Science, Engineering, Math, Physics, and Statistics. He received his undergraduate training in physics at a leading university in Romania, in the western province of Transylvania. As an undergraduate, he published his first paper in atmospheric light refraction in the American Journal of Physics. Later, he moved to the US for graduate studies at the University of Notre Dame, where his research focused on the phenomenon of fluorescence intermittency ("blinking") in quantum dots and other nanoscale particles. His work on blinking was published in journals such as Physics Review Letters, Nano Letters and the Journal of Chemical Physics.
After receiving his PhD in Physics, he moved to the California Institute of Technology, where he developed a theory that enabled him to predict, without the use of adjustable parameters, the experimentally measured rate constants of ATP binding and release as a function of rotation angle.
His current research interests are in the broader area of single-molecule biophysics with a focus on molecular level studies of various motor enzymes including myosin V, DNA-motor complexes and problems related to the cellular mechano biology of cancer. Dr. Volkán-Kacsó is enthusiastic about teaching physics of all flavors and performing cutting-edge research with students.

Education

  • Postdoctoral Research Scholar, California Institute of Technology
  • PhD, Physics, University of Notre Dame
  • MS, Babes-Bolyai University, Romania
  • BS, Babes-Bolyai University, Romania

Academic Area

  • School of Humanities and Sciences

Expertise

  • Nanocrystal quantum dot fluorescence
  • Theory of biomolecular motors, F-ATPase and myosin V
  • Single-molecule biophysics
  • Single fluorophore intermittency
  • Photon counting statistics

Courses Taught

  • PHYC 151 – Physics for Life Sciences I
  • PHYC 152 – Physics for Life Sciences II
  • PHYC 162 – Physics for Science and Engineering II
  • PHYC 361 – Electricity and Magnetism
  • PHYC 370 – Waves and Optics