48. M. Kaufman, R. White, J. Clark, and P.S. Fodor, AIP Proceedings 2607, 060003 (2023)
Fractal geometry of mixing.
47. G. Tomaras, C. Kothapalli, and P.S. Fodor, Micromachines 13, 1785 (2022)
Serpentine micromixers using extensional mixing elements.
46. M. Mansouri, S. Beemer, C. Kothapalli, P.S. Fodor, T. Rhoades, D. Dola, and N. Leipzig, ACS Appl. Mater. Interfaces 14, 4899 (2022)
Generation of oxygenating fluorinated methacrylamide chitosan (MACF) microparticles to increase cell survival and function in large liver spheroids.
45. S. Tietjen, R. Sent, P.S. Fodor, and K. Streletzky, JURP 30, 31 (2021)
Microgel dynamics characterization using SEM.
44. M. Sarsfield, A. Roberts, K. Streletzsky, P. S. Fodor, C. R. Kothapalli, Chemical Engineering Technology 44, 662 (2021)
Optimization of gold particles synthesis in continuous-flow micromixers using response surface methodology.
43. M. Kaufman and P.S. Fodor, Symmetry 12, 1859 (2020)
Analogy between Thermodynamic Phase Transitions and Creeping Flows in Rectangular Cavities.
42. T. Rhoades, C. R. Kothapalli, P.S. Fodor, Micromachines 11, 61 (2020)
Mixing optimization in grooved serpentine microchannels.
41. J. Clark, T.A. Butt, G. Mahajan, C. Kothapalli, M. Kaufman and P.S. Fodor, Journal of Micromechanics and Microengineering 29, 075012 (2019)
Optimization and implementation of efficient serpentine micromixers with non-rectangular cross section.
40. V.R. Kode, M.E. Thompson, C. McDonald, J. Weicherding, A. Dobrila, P. S. Fodor, C.L. Wirth, G. Ao, ACS Applied Nano Materials 2, 2099 (2019)
Aqueous dispersion and self-assembly of boron nitride nanotubes in DNA.
39. C. Kothapalli, B. Hama, G. Mahajan, P.S. Fodor, and M. Kaufman, Microfluidics and Nanofluidics, 22, 54 (2018)
Evolution of mixing in a microfluidic reverse-staggered herringbone micromixer: Correlating CFD modeling with confocal imaging.
38. J. Clark, M. Kaufman, and P.S. Fodor, Micromachines 9, 107 (2018)
Mixing enhancement in serpentine micromixers with non-rectangular cross-section.
37. M. Kaufman and P.S. Fodor, AIP Proceedings 1914, 080003 (2017)
Erosion in extruder flows: Analytical and numerical study.
36. A. Lazar and P.S. Fodor, Proc. SPIE Electronic Imaging 9401, 940105-1 (2015)
Sparsity based noise removal from low dose scanning electron microscopy images.
35. P.S. Fodor and M. Kaufman, AIP Proceedings 1664, 050010 (2015)
Moffatt Eddies in the Single Screw Extruder: Numerical and Analytical Study.
34. J. D'Alessandro and P.S. Fodor, Fuel Cells 14, 818 (2014)
Improving fuel consumption in microfluidic based fuel cells.
33. P.S. Fodor and T. Peppard, The Physics Teacher 50, 344 (2012)
Lenz law demonstration using and ultrasound position sensor.
32. P. Bose, P.S. Fodor and M. Kaufman, International Conference on Nanotechnology:
Fundamentals and Applications, Montreal, Canada (2012)
Dynamics of a linear polymer in a creeping flow.
31. P.S. Fodor and M. Kaufman, Modern Physics Letters B 25, 1111 (2011).
The evolution of mixing in the staggered herring bone micromixer.
30. M. Kaufman and P.S. Fodor, Physica A 389, 2951 (2010)
Fluid mechanics in rectangular cavities - analytical model and numeric.
29. P.S. Fodor, M. Itomlenskis and M. Kaufman, Europ. Phys. J.: Appl. Phys. 47, 31301(2009)
Assessment of mixing in passive microchannels with fractal surface patterning.
28. P.S. Fodor, G. Tsoi, and L.E.Wenger , J. Appl. Phys. 103, 07B713 (2008)
Investigation of magnetic interactions in large arrays of magnetic nanowires.
27. P. Irvin, P.S. Fodor, and J. Levy, Optics Express 15, 11756 (2007)
Gigahertz optical spin transceiver.
26. P.S. Fodor and J. Levy, invited topical review, J. Physics: Cond. Matt. 18, S745 (2006)
Group IV materials for quantum computation.
25. P.S. Fodor, S. Rothenberger, and J. Levy, Rev. Sci. Instrum. 76, 013103 (2005)
320-channel dual phase lock-in optical spectrometer.
24. P.S. Fodor, H. Zhu, N.G. Patil and J. Levy, Rev. Sci. Instrum. 75, 2971 (2004)
Variable temperature scanning optical and force microscope.
23. S.C. Perera, P.S. Fodor, G. Tsoi, L.E.Wenger, and S.L. Brock, Chem. Mater. 15, 4034 (2003)
Application of the de-silylation strategies to the preparation of transition metal pnictide nanocrystals: the case of FeP.
22. J.A. Aitken, K.L. Stamm, P.S. Fodor, L.E.Wenger, and S.L. Brock, Abstr. Pap. Am. Chem. Soc. 225, 868-INOR Part 2 (2003)
Towards diluted magnetic semiconductor (DMS) phosphides.
21. P.S. Fodor, G. Tsoi, and L.E.Wenger, J. Appl. Phys. 93, 7035 (2003)
Modeling of hysteresis and magnetization curves for hexagonally ordered electrodeposited nanowires.
20. P.S. Fodor, G. Tsoi, and L.E.Wenger, J. Appl. Phys. 93, 7438 (2003)
Zero magnetization states in electrodeposited Co0.45Fe0.55 alloy nanowires.
19. P. Talagala, P.S. Fodor, D. Haddad, R. Naik, L.E.Wenger, P.P.Vaishnava, and V. M. Naik, Phys. Rev. B 66, 144426 (2002)
Determination of magnetic exchange /stiffness constants in epitaxial Ni1-xCox(001) (x<0.5) films.
18. C.S. Lue, F.H. Hsu, H.H. Li, H.D. Yang, Y.K. Kuo, P.S. Fodor, and L.E.Wenger, Phys. Rev. B 66, 033101 (2002)
Thermal hysteresis in the charge-density-wave transition of Lu5Rh4Si10.
17. P.S. Fodor, G. Tsoi, and L.E.Wenger, J. Appl. Phys. 91, 8186 (2002)
Fabrication and characterization of Co1-xFexnanowires.
16. M. Chinkhota, P.S. Fodor, G.D. Khattak, and L.E. Wenger, J. Appl. Phys. 91, 8269 (2002)
Investigation of the magnetic properties in vanadium-strontium-borate oxide glasses.
15. J.L. Nair., S.L. Brock., P.S. Fodor, et al., Abstr. Pap. Am. Chem. Soc. 222, 383-INOR Part 1 (2001)
Synthesis and characterization of copper oxide doped silica aerogels.
14. M.A. Salim, G.D. Khattak, P.S. Fodor, L.E. Wenger, J. Non-Cryst. Solids 289, 185-195 (2001)
X-ray photoelectron spectroscopy (XPS) and magnetization studies of iron-vanadium phosphate glasses.
13. P.S. Fodor, L.E. Wenger, Physica C 341, 2043-2044, (2000)
Paramagnetic Meissner effect in Nb disks.
Other publications (editorial reviewed manuscripts, monographs, manuals, etc.):
12. P. S. Fodor and T. Peppard: "Remote Laboratory Activities for Algebra Based Introductory Physics", last revision 2021.
11. P. S. Fodor and T. Peppard: "Remote Laboratory Activities for Calculus Based Introductory Physics", last revision 2021.
10. P.S. Fodor, T. Peppard, G.T. Wood: "Experiments for Calculus Based Introductory Physics I", last revision 2020.
9. P.S. Fodor, T. Peppard, G.T. Wood: "Experiments for Calculus Based Introductory Physics II", last revision 2020.
8. P.S. Fodor, T. Peppard, G.T. Wood: "Experiments for Algebra Based Introductory Physics I", last revision 2020.
7. P.S. Fodor, T. Peppard, G.T. Wood: "Experiments for Algebra Based Introductory Physics II", last revision 2020.
6. J. Clark, T.A. Butt, G. Mahajan, C. Kothapalli, M. Kaufman, and P.S. Fodor, Proceedings of the COMSOL Conference, Boston ( 2018)
Flow Modeling in Long Surface Patterned Micromixers Using Division in Multiple Geometrical Subunits.
5. T. Dobrila, K. Streletzky, and P.S. Fodor, The Ohio Journal of Science 118, A48 (2018)
Enhancing the direct visualization of microgels via scanning electron microscopy.
4. P.S. Fodor, B. Vyhnalek, and M. Kaufman, Proceedings of the COMSOL Conference 2013 Boston
Entropic evaluation of Dean flow micromixers.
3. P.S. Fodor and J. DAlessandro, Proceedings of the COMSOL Conference, Boston ( 2011)
Improving fuel usage in microchannel based fuel cells.
2. M. W. Siebert and P.S. Fodor, Proceedings of the COMSOL Conference, Boston ( 2009)
Newtonian and non-Newtonian blood flow over a backward-facing step - A case study.
1. M. Itomlenskis, P.S. Fodor and M. Kaufman, Proceedings of the COMSOL Conference, Boston ( 2008)
Design of passive micromixers using the COMSOL Multiphysics software package.