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阿明Kargol

物理学教授,Rev. James C. 卡特,年代.J., Distinguished Professor in Experimental Physics

教育

Ph.D. 物理学,弗吉尼亚理工大学,1994年

M.S. Mathematics, Virginia Tech, 1992

M.S. Theoretical Physics, University of Wroclaw, 1987

部门

  • 文理学院
  • Physics

专业知识

  • Physics

Bio

Professor 阿明Kargol studied physics and mathematics at the University of Wroclaw in Poland and at Virginia Tech. He did postdoctoral work at the Institute for Mathematics and Its Applications at the University of Minnesota in Minneapolis and at Tulane University in 新奥尔良. 最初, his research was concerned with mathematical foundations of quantum mechanics, including semiclassical and Born-Oppenheimer approximations as well as C*-algebras of operators. Soon after completing his PhD, Prof. Kargol became interested in mathematical modeling of biological processes, in particular transport processes on a cellular level, as well as experimental studies of membrane transport processes. His research now concentrates on nonequilibrium properties of ion channels in cellular membranes. It involves ion channel electrophysiology, 数值模拟, and theoretical analysis of channel gating kinetics. Another area of his interest is the thermodynamics of membrane transport processes. Prof. Kargol leads a Biophysics Lab devoted to patch clamping studies on voltage-gated ion channels. His research group includes several undergraduate student researchers. Go to 研究页面.

Prof. Kargol has taught physics in Poland and at Tulane University in 新奥尔良. At Loyola University he has been responsible for physics courses for pre-health students and for introductory and advanced physics courses for majors.

授课

  • Introduction to Mechanics (PHYS A101)
  • 力学实验室(物理A103)
  • E简介&M与相对论(PHYS A102)
  • 电子显微镜实验室(PHYS A104)
  • Introduction to Waves and Quantum Physics (PHYS A240)
  • Classical Mechanics (PHYS A340)
  • Quantum Mechanics (PHYS A450)
  • Cellular Biophysics (PHYS A436)
  • Physics for Life Sciences (PHYS A115-116)
  • Basic Physics Lab (PHYS A112-113)
  • Introduction to Physics (PHYS T122)
  • Investigating Nature (SCIE T129)

专业领域

  • 离子通道电生理学
  • Numerical simulations of ion channel gating kinetics
  • Theoretical analysis of channel gating
  • Mathematical modeling of biological processes
  • Thermodynamics of membrane transport processes
  • 量子力学

出版物

A. Kargol L. Malkinski G. Caruntu: Biomedical applications of multiferroic particles. In: Advanced Magnetic Materials, InTech (2012)

A. Kargol, M. Kargol: Passive transport processes in cellular membranes. In: Porous media: Applications in biological systems and biotechnology, 泰勒和弗朗西斯集团, 有限责任公司(2011)

A. Kargol K. Kabza: Test of nonequilibrium kinetic focusing of voltage-gated ion channels, Phys. Biol. 5(2008)026003

A. Kargol: Non-equilibrium studies of voltage-gated ion channels. Proc. Intl. Conf. on Interdisciplinary Science (ISIS), Natchitoches, LA, Oct. 2004年,《. A.Ludu, N.R.哈钦斯D.R.Fry, AIP 2005, p. 159-164

A. Kargol,. Hosein-Sooklal: Optimal sensitivity analysis of ion channel gating kinetics. J. 膜生物. 199 (2004) 113-118

M. Kargol,. Kargol: Mechanistic equations for membrane substance transport and their identity with Kedem-Katchalsky equations. Biophys. Chem. 103 (2003) 117-127

A. Kargol B. 史密斯,米.M. Millonas: Application of nonequilibrium response spectroscopy to the study of channel gating. Experimental design and optimization. J. Theoret. Biol. 218 (2002) 239-258

A. Kargol: A mechanistic model of transport processes in porous membranes generated by osmotic and hydrostatic pressure. J. Membr. Sci. 191 (2001) 61-69

A. Kargol: Modified Kedem-Katchalsky equations and their applications, J. Membr. Sci. 174 (2000) 43-53

R. Eskandari L. Malkinski,. Kargol,. Ayala J.D. 亚历山大,.U. Kargol, M. 卡特,维. 利文斯顿,. Chalastaras: Multifunctional magnetic composites for biomedical applications, Proc. LA-SiGMA研讨会(2015)

A. Kargol L. Malkinski R. Eskandari, M. 卡特,维. Livingston: “Cellular Defibrillation”: Interaction of Microscale Electric Field with Voltage Gated Ion Channels. J. Biol. Phys. 41 (2015) 421-431

A. Ayala J.D. 亚历山大,.U. Kargol L. Malkinski,. Kargol: Piezoelectric micro- and nanoparticles do not affect growth rates of mammalian cells in vitro. J. Bionanosci. 8 (2014) 309-312

L. Ponzoni G.L. Celardo F. Borgonovi L. 卡普兰,. Kargol: Focusing in Multiwell Potentials: Applications to Ion Channels. Phys. Rev. E 87 (2013) 852137

A. Kargol: Wavelet-based protocols for ion channel electrophysiology. BMC Biophysics 6:3 (2013)