Edward Furlani

PhD

Edward Furlani

PhD

Edward Furlani

PhD

Research Topics

Computational Physics/Multidisciplinary Modeling: Nanophotonics; Plasmonics and Metamaterials; Optofluidics; MEMS/MOEMS Simulation; Microfluidics; Computational Fluid Dynamics; Inkjet Systems; Applied Magnetics; Biomagnetics

Contact Information

113 B Davis Hall

Buffalo NY, 14260

Phone: (716) 645-1194

Fax: (716) 645-3822

efurlani@buffalo.edu

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Publications

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  • X. Z. Xue, K. Liu, E. P. Furlani, “Theoretical Study of the Self-Assembly and Optical Properties of 1D Chains of Magnetic-Plasmonic Nanoparticles”, J. Phys. Chem. C 121, 9489-9496 (2017). link
  • J. Gomez-pastora, I. H. Karampelas, X. Z. Xue, E. Bringas, E. P. Furlani, I. Ortiz, “Magnetic Bead Separation from Flowing Blood in a Two-Phase Continuous-Flow Magnetophoretic Microdevice: Theoretical Analysis through Computational Fluid Dynamics Simulation”, J. Phys. Chem. C 121, 7466-7477 (2017). link
  • L. X. Zhu, M. Yavari, W. G. Jia, E. P. Furlani, H. Q. Lin, “Geometric Restriction of Gas Permeance in Ultrathin Film Composite Membranes Evaluated Using an Integrated Experimental and Modeling Approach”, Ind. Eng. Chem. Res. 56, 351-358 (2017). link
  • J. Gomez-pastora, X. Z. Xue, I. H. Karampelas, E. Bringas, E. P. Furlani, I. Ortiz, “Analysis of separators for magnetic beads recovery: From large systems to multifunctional microdevices”, Sep. Purif. Technol. 172, 16-31 (2017). link
  • M. P. S. dos santos, J. A. F. Ferreira, J. A. O. Simoes, R. Pascoal, J. Torrao, X. Z. Xue, E. P. Furlani, “Magnetic levitation-based electromagnetic energy harvesting: a semi-analytical non-linear model for energy transduction”, Sci Rep 6, 18579 (2016). link
  • K. Liu, X. Z. Xue, V. Sukhotskiy, E. P. Furlani, “Optical Fano Resonance in Self-Assembled Magnetic-Plasmonic Nanostructures”, J. Phys. Chem. C 120, 27555-27561 (2016). link
  • K. Liu, X. Z. Xue, E. P. Furlani, “A numerical study of the photothermal behaviour of near-infrared plasmonic colloids”, RSC Adv. 6, 100670-100675 (2016). link
  • X. Z. Xue, V. Sukhotskiy, E. P. Furlani, “Optimization of Optical Absorption of Colloids of SiO2@Au and Fe3O4@Au Nanoparticles with Constraints”, Sci Rep 6, 35911 (2016). link
  • K. Liu, X. Z. Xue, E. P. Furlani, “Theoretical Comparison of Optical Properties of Near-Infrared Colloidal Plasmonic Nanoparticles”, Sci Rep 6, 34189 (2016). link
  • M. P. S. dos santos, A. Marote, T. Santos, J. Torrao, A. Ramos, J. A. O. Simoes, O. A. B. D. C. E. Silva, E. P. Furlani, S. I. Vieira, J. A. F. Ferreira, “New cosurface capacitive stimulators for the development of active osseointegrative implantable devices”, Sci Rep 6, 30231 (2016). link
  • L. X. Zhu, W. G. Jia, M. Kattula, K. Ponnuru, E. P. Furlani, H. Q. Lin, “Effect of porous supports on the permeance of thin film composite membranes: Part I. Track-etched polycarbonate supports”, J. Membr. Sci. 514, 684-695 (2016). link
  • V. A. Pogrebnyak, E. P. Furlani, “Tunable Bloch Wave Resonances and Bloch Gaps in Uniform Materials with Reconfigurable Boundary Profiles”, Phys. Rev. Lett. 116, 206802 (2016). link
  • I. H. Karampelas, K. Liu, F. Alali, E. P. Furlani, “Plasmonic Nanoframes for Photothermal Energy Conversion”, J. Phys. Chem. C 120, 7256-7264 (2016). link
  • W. D. Mojica, K. W. Oh, H. Lee, E. P. Furlani, D. Sykes, A. M. Sands, “Microfluidics Enables Multiplex Evaluation of the Same Cells for Further Studies”, Cytopathology 27, 277-283 (2016). link
  • X. Z. Xue, J. C. Wang, E. P. Furlani, “Self-Assembly of Crystalline Structures of Magnetic Core-Shell Nanoparticles for Fabrication of Nanostructured Materials”, ACS Appl. Mater. Interfaces 7, 22515-22524 (2015). link
  • M. Kattula, K. Ponnuru, L. X. Zhu, W. G. Jia, H. Q. Lin, E. P. Furlani, “Designing ultrathin film composite membranes: the impact of a gutter layer”, Sci Rep 5, 15016 (2015). link
  • Wilfrido D Mojica,, Kwang W Oh, Hun Lee, Edward P Furlani, Amy M Sands, “Maximizing derivable information from cytologic specimens for pathologic and molecular diagnostics”, Journal of the American Society of Cytopathology 4, 141-147 (2015).
  • D.A.B. Iozzo, M. Tong, G. Wu, E. Furlani, “Numerical Analysis of Electric Double Layer Capacitors with Mesoporous Electrodes: Effects of Electrode and Electrolyte Properties”, J. Phys. Chem. C 119, 25235-25242 (2015). link PDF
  • S. Son, M. S. Liang, P. Lei, X. Z. Xue, E. P. Furlani, S. T. Andreadis, “Magnetofection Mediated Transient NANOG Overexpression Enhances Proliferation and Myogenic Differentiation of Human Hair Follicle Derived Mesenchymal Stem Cells”, Bioconjugate Chem. 26, 1314-1327 (2015). link
  • M. X. Liu, X. Z. Xue, C. Ghosh, X. Liu, Y. Liu, E. P. Furlani, M. T. Swihart, P. N. Prasad, “Room-Temperature Synthesis of Covellite Nanoplatelets with Broadly Tunable Localized Surface Plasmon Resonance”, Chem. Mat. 27, 2584-2590 (2015). link PDF
  • X. Z. Xue, E. P. Furlani, “Analysis of the Dynamics of Magnetic Core-Shell Nanoparticles and Self-Assembly of Crystalline Superstructures in Gradient Fields”, J. Phys. Chem. C 119, 5714-5726 (2015). link
  • J. Berthier, K. A. Brakke, E. P. Furlani, I. H. Karampelas, V. Poher, D. Gosselin, M. Cubizolles, P. Pouteau, “Whole blood spontaneous capillary flow in narrow V-groove microchannels”, Sens. Actuator B-Chem. 206, 258-267 (2015). link
  • X. Z. Xue, E. P. Furlani, “Template-assisted nano-patterning of magnetic core-shell particles in gradient fields”, Phys. Chem. Chem. Phys. 16, 13306-13317 (2014). link
  • F. Alali, Y. H. Kim, A. Baev, E. P. Furlani, “Plasmon-Enhanced Metasurfaces for Controlling Optical Polarization”, ACS Photonics 1, 507-515 (2014). link
  • S. A. Khashan, A. Alazzam, E. P. Furlani, “Computational Analysis of Enhanced Magnetic Bioseparation in Microfluidic Systems with Flow-Invasive Magnetic Elements”, Sci Rep 4, 5299 (2014). link
  • S. A. Khashan, E. P. Furlani, “Scalability analysis of magnetic bead separation in a microchannel. with an array of soft magnetic elements in a uniform magnetic field”, Sep. Purif. Technol. 125, 311-318 (2014). link
  • W. Mojica, R. Bassey, F. Chen, B. Hannahoe, P. Sauer, R. Hard, E. P. Furlani, “Conditional Prerequisites for Microchannel Cytologic Analysis on Wet Mount (Fluid-Based) Biopsies”, Cancer Cytopathol. 122, 59-69 (2014). link
  • F. Alali, I. H. Karampelas, Y. H. Kim, E. P. Furlani, “Photonic and Thermofluidic Analysis of Colloidal Plasmonic Nanorings and Nanotori for Pulsed-Laser Photothermal Applications”, J. Phys. Chem. C 117, 20178-20185 (2013). link
  • T. Y. Ohulchanskyy, A. Kopwitthaya, M. Jeon, M. R. Guo, W. C. Law, E. P. Furlani, C. Kim, P. N. Prasad, “Phospholipid micelle-based magneto-plasmonic nanoformulation for magnetic field-directed, imaging-guided photo-induced cancer therapy”, Nanomed.-Nanotechnol. Biol. Med. 9, 1192-1202 (2013). link
  • S. A. Khashan, E. P. Furlani, “Coupled particle-fluid transport and magnetic separation in microfluidic systems with passive magnetic functionality”, J. Phys. D-Appl. Phys. 46, 125002 (2013). link
  • E. P. Furlani, H. S. Jee, H. S. Oh, A. Baev, P. N. Prasad, “Laser Writing of Multiscale Chiral Polymer Metamaterials”, Advances in OptoElectronics , 1-7 (2012). link
  • E. P. Furlani, I. H. Karampelas, Q. Xie, “Analysis of pulsed laser plasmon-assisted photothermal heating and bubble generation at the nanoscale”, Lab Chip 12, 3707-3719 (2012). link
  • E. P. Furlani, X. Xue, “Field, Force and Transport Analysis for Magnetic Particle-based Gene Delivery”, Microfluid. Nanofluid. 13, 589-604 (2012). link
  • K. W. Oh, K. Lee, B. Ahn , E. P. Furlani, “Design of Pressure-driven Microfluidic Networks using Electric Circuit Analogy”, Lab Chip 12, 515-545 (2012). link
  • E. P. Furlani, X. Z. Xue, “A Model for Predicting Field-Directed Particle Transport in the Magnetofection Process”, Pharm. Res. 29, 1366-1379 (2012). link
  • J. M. Velazquez, A. V. Gaikwad, T. K. Rout, R. E. Baier, E. S. Furlani, S. Banerjee, “Nanotexturation-induced extreme wettability of an elemental tellurium coating”, J. Mater. Chem. 22, 3335-3339 (2012). link
  • S. A. Khashan, E. P. Furlani, “Effects of particle-fluid coupling on particle transport and capture in a magnetophoretic microsystem”, Microfluid. Nanofluid. 12, 565-580 (2012). link
  • T. Dejardin, J. de la Fuente, P. del Pino, E. P. Furlani, M. Mullin, C-A Smith, C. C Berry, “Influence of both a Static Magnetic Field and Penetratin on Magnetic Nanoparticle Delivery into Fibroblasts”, Nanomedicine 6, 1719-1731 (2011). link
  • E. P. Furlani, M. S. Hanchak, “Nonlinear analysis of the deformation and breakup of viscous microjets using the method of lines”, Int. J. Numer. Methods Fluids 65, 563-577 (2011). link
  • S. Shukla, X. Vidal, E. P. Furlani, M. T. Swihart, K. T. Kim, Y. K. Yoon, A. Urbas, P. N. Prasad, “Subwavelength Direct Laser Patterning of Conductive Gold Nanostructures by Simultaneous Photopolymerization and Photoreduction”, ACS Nano 5, 1947-1957 (2011). link PDF supplementary info
  • E. P. Furlani, R. Biswas, A. N. Cartwright, N. M. Litchinitser, “Antiresonant guiding optofluidic biosensor”, Opt. Commun. 284, 4094-4098 (2011). link
  • E. P. Furlani, “Magnetic Biotransport: Analysis and Applications”, Materials 3, 2412-2446 (2010). link
  • C. A. M. Smith, J. de la fuente, B. Pelaz, E. P. Furlani, M. Mullin, C. C. Berry, “The effect of static magnetic fields and tat peptides on cellular and nuclear uptake of magnetic nanoparticles”, Biomaterials 31, 4392-4400 (2010). link
  • I. Mozjerin, E. A. Gibson, E. P. Furlani, I. R. Gabitov, N. M. Litchinitser, “Electromagnetic enhancement in lossy optical transition metamaterials”, Opt. Lett. 35, 3240-3242 (2010).
  • R. Andreescu, B. Spellman, E. P. Furlani, “Residual strain effects on a non-contact magnetoelastic torque transducer”, Int. J. Appl. Electromagn. Mech. 32, 183-193 (2010). link
  • S. Shukla, E. P. Furlani, X. Vidal, M. T. Swihart, P. N. Prasad, “Two-Photon Lithography of Sub-Wavelength Metallic Structures in a Polymer Matrix”, Adv. Mater. 22, 3695-+ (2010). link
  • E. P. Furlani, “Analysis of an Electrostatically Actuated MEMS Drop Ejector”, Sensors & Transducers 7, 78-87 (2009).
  • E. P. Furlani, A. Baev, “Free-space excitation of resonant cavities formed from cloaking metamaterial”, J. Mod. Opt. 56, 523-529 (2009). link
  • E. P. Furlani, A. Baev, “Optical nanotrapping using cloaking metamaterial”, Phys. Rev. E 79, 026607 (2009). link
  • A. Baev, E. P. Furlani, P. N. Prasad, A. N. Grigorenko, N. W. Roberts, “Laser nanotrapping and manipulation of nanoscale objects using subwavelength apertured plasmonic media”, J. Appl. Phys. 103, 084316 (2008). link
  • R. Andreescu, B. Spellman, E. P. Furlani, “Analysis of a non-contact magnetoelastic torque transducer”, J. Magn. Magn. Mater. 320, 1827-1833 (2008). link
  • E. P. Furlani, K. C. Ng, “Nanoscale magnetic biotransport with application to magnetofection”, Phys. Rev. E 77, 061914 (2008). link
  • E. J. Furlani, E. P. Furlani, “A model for predicting magnetic targeting of multifunctional particles in the microvasculature”, J. Magn. Magn. Mater. 312, 187-193 (2007). link
  • A. Baev, E. P. Furlani, M. Samoc, P. N. Prasad, “Negative refractivity assisted optical power limiting”, J. Appl. Phys. 102, 043101 (2007). link
  • E. P. Furlani, “Magnetophoretic separation of blood cells at the microscale”, J. Phys. D-Appl. Phys. 40, 1313-1319 (2007). link
  • E. P. Furlani, Y. Sahoo, K. C. Ng, J. C. Wortman, T. E. Monk, “A model for predicting magnetic particle capture in a microfluidic bioseparator”, Biomed. Microdevices 9, 451-463 (2007). link
  • E. P. Furlani, “Analysis of particle transport in a magnetophoretic microsystem”, J. Appl. Phys. 99, 024912 (2006). link
  • E. P. Furlani, Y. Sahoo, “Analytical model for the magnetic field and force in a magnetophoretic microsystem”, J. Phys. D-Appl. Phys. 39, 1724-1732 (2006). link
  • E. P. Furlani, K. C. Ng, “Analytical model of magnetic nanoparticle transport and capture in the microvasculature”, Phys. Rev. E 73, 061919 (2006). link
  • E. P. Furlani, “Temporal instability of viscous liquid microjets with spatially varying surface tension”, J. Phys. A-Math. Gen. 38, 263-276 (2005). link
  • Y. Sahoo, A. Goodarzi, M. T. Swihart, T. Y. Ohulchanskyy, N. Kaur, E. P. Furlani, P. N. Prasad, “Aqueous ferrofluid of magnetite nanoparticles: Fluorescence labeling and magnetophoretic control”, J. Phys. Chem. B 109, 3879-3885 (2005). link
  • Y. Sahoo, Y. He, M. T. Swihart, S. Wang, H. Luo, E. P. Furlani, P. N. Prasad, “An aerosol-mediated magnetic colloid: Study of nickel nanoparticles”, J. Appl. Phys. 98, 054308 (2005). link PDF
  • Y. Sahoo, M. Cheon, S. Wang, H. Luo, E. P. Furlani, P. N. Prasad, “Field-directed self-assembly of magnetic nanoparticles”, J. Phys. Chem. B 108, 3380-3383 (2004). link
  • E. P. Furlani, “Theory of microfluidic squeeze-film dominated fluid ejection”, J. Phys. D-Appl. Phys. 37, 2483-2488 (2004). link
  • E. P. Furlani, “Analytical analysis of magnetically coupled multipole cylinders”, J. Phys. D-Appl. Phys. 33, 28-33 (2000). link
  • E. P. Furlani, “Theory and simulation of viscous damped reflection phase gratings”, J. Phys. D-Appl. Phys. 32, 412-416 (1999). link
  • E. P. Furlani, “Quantization of massive vector fields in curved space-time”, J. Math. Phys. 40, 2611-2626 (1999). link
  • E. P. Furlani, E. H. Lee, H. Luo, “Analysis of grating light valves with partial surface electrodes”, J. Appl. Phys. 83, 629-634 (1998). link
  • E. P. Furlani, “Analysis of the eddy-current field of a rotary bias field device for magneto-optic recording”, IEEE Trans. Magn. 34, 527-530 (1998). link
  • E. P. Furlani, M. A. Knewtson, “A three-dimensional field solution for permanent-magnet axial-field motors”, IEEE Trans. Magn. 33, 2322-2325 (1997). link
  • E. P. Furlani, “A two-dimensional analysis for the coupling of magnetic gears”, IEEE Trans. Magn. 33, 2317-2321 (1997). link
  • E. P. Furlani, “Quantization of massive vector fields on ultrastatic spacetimes”, Class. Quantum Gravity 14, 1665-1677 (1997). link
  • E. P. Furlani, “The field analysis and simulation of a permanent-magnet bias-field device for magneto-optic recording”, J. Phys. D-Appl. Phys. 30, 1846-1853 (1997). link
  • E. P. Furlani, “Field analysis and optimization of NdFeB axial field permanent magnet motors”, IEEE Trans. Magn. 33, 3883-3885 (1997). link
  • E. P. Furlani, “Evolution operators and scattering theory for massive scalar fields on curved spacetimes”, J. Phys. A-Math. Gen. 30, 6065-6079 (1997). link
  • E. P. Furlani, “Quantization and scattering of massive scalar fields on exterior domains”, J. Phys. A-Math. Gen. 30, 7895-7917 (1997). link
  • E. P. Furlani, M. Obrien, “Predicting the dynamic behavior of axial-field actuators”, IEEE Trans. Magn. 32, 302-308 (1996). link
  • E. P. Furlani, “Analysis and optimization of synchronous magnetic couplings”, J. Appl. Phys. 79, 4692-4694 (1996). link
  • E. P. Furlani, “An analytical method for predicting the transient behavior of resonant electromagnetic actuators”, Int. J. Appl. Electromagn. Mech. 7, 101-108 (1996).
  • E. P. Furlani, S. Reznik, A. Kroll, “A Three-Dimensional Field Solution for Radially Polarized Cylinders”, IEEE Trans. Magn. 31, 844-851 (1995). link
  • E. P. Furlani, “Quantization of the Electromagnetic Field on Static Space-times”, J. Math. Phys. 36, 1063-1079 (1995). link
  • E. P. Furlani, “Formulas for Computing the Field Distributions of Cylindrical Shells with Axial Polarization”, Int. J. Appl. Electromagn. Mech. 6, 103-111 (1995).
  • E. P. Furlani, C. Williams, “Formulas for Optimizing the Bias Field for Magneto-Optic Recording”, J. Magn. Magn. Mater. 148, 475-478 (1995). link
  • E. P. Furlani, R. Wang, H. Kusnadi, “A Three-Dimensional Model for Computing the Torque of Radial Couplings”, IEEE Trans. Magn. 31, 2522-2526 (1995). link
  • E. P. Furlani, T. S. Lewis, “A two-dimensional model for the torque of radial couplings”, Int. J. Appl. Electromagn. Mech. 6, 187-196 (1995).
  • E. P. Furlani, “Computing the Field in Permanent-Magnet Axial-Field Motors”, IEEE Trans. Magn. 30, 3660-3663 (1994).
  • E. P. Furlani, “Analysis of a Sintered NdFeB Magnetic Lens”, J. Magn. Magn. Mater. 134, 117-120 (1994). link
  • E. P. Furlani, “A Three-Dimensional Field Solution for Axially Polarized Multipole Disks”, J. Magn. Magn. Mater. 135, 205-214 (1994). link
  • R. Wang, E. P. Furlani, Z. J. Cendes, “Design and Analysis of a Permanent Magnet Axial Coupling Using 3D Finite Element Field Computations”, IEEE Trans. Magn. 30, 2292-2295 (1994). link
  • E. P. Furlani, S. Reznik, W. Janson, “A Three-Dimensional Field Solution for Bipolar Cylinders”, IEEE Trans. Magn. 30, 2916-2919 (1994). link
  • E. P. Furlani, M. Obrien, “Analysis of Axial-Field Actuators”, IEEE Trans. Magn. 30, 4323-4325 (1994). link
  • E. P. Furlani, J. K. Lee, D. Dowe, “Predicting the Dynamic Behavior of Moving Magnet Actuators”, J. Appl. Phys. 73, 3555-3559 (1993). link
  • I. D. Mayergoyz, E. P. Furlani, S. Reznik, “The Computation of Magnetic Fields of Permanent Magnet Cylinders used in the Electrophotographic Process”, J. Appl. Phys. 73, 5440-5442 (1993). link
  • E. P. Furlani, “Formulas for the Force and Torque of Axial Couplings”, IEEE Trans. Magn. 29, 2295-2301 (1993). link
  • E. P. Furlani, “A Formula for the Levitation Force between Magnetic Disks”, IEEE Trans. Magn. 29, 4165-4169 (1993). link
  • E. P. Furlani, “A Method for Predicting the Field in Permanent Magnet Axial-Field Motors”, IEEE Trans. Magn. 28, 2061-2066 (1992). link
  • L. R. Egan, E. P. Furlani, “A Computer Simulation of an Induction Heating System”, IEEE Trans. Magn. 27, 4343-4354 (1991). link
  • J. K. Lee, E. Furlani, “The Optimization of Multipole Magnetizing Fixtures for High-Energy Magnets”, J. Appl. Phys. 67, 1570-1575 (1990). link
  • E. P. Furlani, A. G. Baker, “Mathematical Model for the Calculation of Magnetization in Anisotropic Materials”, J. Appl. Phys. 59, 3815-3819 (1986). link
  • M. G. Fuda, E. Furlani, “Zitterbewegung and The Klein Paradox for Spin-Zero Particles”, Am. J. Phys. 50, 545-549 (1982). link

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