1. P. R Boersma, J.P. Rothstein and Y. Modarres-Sadeghi (2022) "An Experimental Investigation of Vortex-Induced Vibrations of a Flexibly-Mounted Cylinder in Shear- and Extensional-Thinning Flows" submitted J. Fluid Mechanics

  2. H. Masoud, H. and J. P. Rothstein (2022). "Diffusive mass transfer from a Janus sphere," Phys. Rev. Fluids. [pdf]

  3. K. Sundara Rajan  and J. P. Rothstein (2022). "Cold Spray Deposition of Polymer Particles on Metal Substrates," J. Therm. Spray Technol. [pdf]

  4. A. Naik, Y. Zhou, D. L. Arellano, U. Okoroanyanwu , E. Secor, M. Hersam, A. A. Dey, J. P. Rothstein, K. R. Carter, J. Morse and J. J. Watkins, "Printed Microfluidic Sweat Sensing Platform for Cortisol and Glucose Detection," Lab on a Chip 22 (2022) 159-169.[pdf]

  5. U. N. Patel J.P. Rothstein, Y. Modarres-Sadeghi, "Vortex-induced vibrations of a circular cylinder in inelastic shear-thinning and shear-thickening fluids," J. Fluid Mech. 934 (2022) A39 [pdf]

  6. M. Timm, J. P. Rothstein and H. Masoud, "A remote controlled Marangoni surfer," Bioinspiration and Biomimetics 16 (2021) 066014. [pdf]

  7. P. R. Boersma, J. Zhao, J.P. Rothstein, Y. Modarres-Sadeghi, "Experimental evidence of vortex-induced vibrations at subcritical Reynolds numbers," J. Fluid Mech. 922 (2021) R3 [pdf]

  8. A. Alshehri, J.P. Rothstein, P. Kavehpour, "A Novel Continuous Drop-Wise Condensation Technology for Improved Heat and Mass Transfer Efficiencies," Scientific Reports 11 (2021) 1-15 [pdf]

  9. S.J. Kang, E. Dehdashti, J.P. Rothstein, H. Masoud, "Optimal Marangoni Surfing," Physical Review Fluids 5 (2021) 08004 [pdf]

  10. S. Khandavalli, N. Sharma-Nene, S. Kabir, S. Sur, J. P. Rothstein, K. C. Neyerlin, S. A Mauger, M. Ulsh, "Toward Optimizing Electrospun Nanofiber Fuel Cell Catalyst Layers: Polymer-Particle Interactions and Spinnability," ACS Applied Polymer Materials, 285 (2020) 104382 [pdf]

  11. J.P. Rothstein, H. Mohammadigoushki, "Complex flows of viscoelastic wormlike micelle solutions," J. Non-Newtonain Fluid Mech., 285 (2020) 104382 [pdf]

  12. A. Dey, Y. Modarres-Sadeghi, J.P. Rothstein, "Elastic instability-induced oscillations of a cantilevered beam in aflow of wormlike micelle solution," J. Non-Newtonian Fluid Mech., 286 (2020) 104433. [pdf]

  13. S.J. Kang, S. Sur, J.P. Rothstein, H. Masoud, "Forward, reverse, and no motion of Marangoni surfers under confinement," Phys. Rev. Fluids, 5 (2020) 084004 [pdf]

  14. E. Alizadeh-Birjandi, F. Tavakoli-Dastjerdi, J.S. Leger, S.H. Davis, J.P. Rothstein and H.P. Kavehpour, "Delay of Ice Formation on Penguin Feathers," European Phys. J., 229 (2020) 1881-1896 [pdf]

  15. A. Dey, A. Lindner, Y. Modarres-Sadeghi, J.P. Rothstein, "Oscillations of a cantileverd micro beam driven by a viscoelastic flow instability," Soft Matter, 16 (2020) 1227-1235. [pdf]

  16. S. Sur, N. Uvanovic, H. Masoud, J.P. Rothstein, "The effect of shape on the motion and stability of marangoni surfers," J. Fluid Eng. 143 (2021) 011301. [pdf]

  17. S. Sur, M. Chellamuthu, J.P. Rothstein, "High temperature extension rheology of polycarbonate mixed with flame retardant salts," Korea-Australia Rheology Journal, 32 (2020) 47-59. [pdf]

  18. Z. Khalkhali, W. Xie, J.H. Lee, J.P. Rothstein, "Cold Spray Deposition and Laser-Induced Single Particle Impact Experiments for Low Glass Transition Temperature Polymer Particles," submitted Adv. Materials Technology, (2020) [pdf]

  19. Z. Khalkhali, J.P. Rothstein, "Peening Effect of Glass Beads in the Cold Spray Deposition of Polymeric Powders," in press J. Therm. Spray Technol., (2020). [pdf]

  20. Z. Khalkhali, J.P. Rothstein, "Characterization of the Cold Spray Deposition of a Wide Variety of Polymeric Powders," Surf. Coat. Technol., 383 (2020) 125251. [pdf]

  21. S. Sur, H. Masoud and J.P. Rothstein, "Translational and Rotational Motion of Disk-Shaped Marangoni Surfers," Physics of Fluids 31 (2019) 102101 [pdf]

  22. M. Rosello, S. Sur, B. Barbet and J.P. Rothstein, Dripping-onto-substrate capillary breakup extensional rheometry of low-viscosity printing inks, J. Non-Newtonian Fluid Mechanics 266 (2019) 160-170 [pdf]

  23. C. Lang, J. Hendricks, Z. Zhang, N. K. Reddy, J. P. Rothstein, M. P. Lettinga, J. Vermant, and C. Clasen, Effects of particle stiffness on the extensional behavior of model rod-like particle suspensions, Soft Matter 15 (2019) 833-841 [pdf]

  24. V. Inguva, J. P. Rothstein, O. Bilsel, and J. B. Perot, High-speed velocimetry in microfluidic protein mixers using confocal fluorescence decay microscopy, Exp. Fluids 59 (2019) 177 . [pdf]

  25. A.A. Dey, Y. Modarres-Sadeghi and J.P. Rothstein, ‘‘Viscoelastic fluid-structure interactions between a flexible cylinder and wormlike micelle solution,’’ Phys. Rev. Fluids 3 (2018) 063301 [pdf]

  26. D. Song, B. Song, H. Hu, X. Du, P. Du, C.-H. Choi and J.P. Rothstein, The effect of surface tension gradient on the slip flow along a superhydrophobic air-water interface, Phys. Rev. Fluids 3 (2018) 033303 [pdf]

  27. Z. Khalkhali, W. Xie, V.K. Champagne, J.H. Lee, J.P. Rothstein, "A comparison of cold spray technique to single particle micro-ballistic impacts for the deposition of polymer particles on polymer substrates," Surface and Coatings Technology, 351 (2018) 99-107 [pdf]

  28. H. Xu, A. Clarke, J.P. Rothstein and R.J. Poole, Viscoelastic drops moving on hydrophilic and superhydrophobic surfaces, J. Colloid and Interface Sci. 513 (2018) 53-61 [pdf]

  29. A.M. Karim, J.P. Rothstein and H.P. Kavehpour, Experimental study of dynamic contact angles on rough hydrophobic surfaces, J. Colloid and Interface Sci. 513 (2018) 658-665 [pdf]

  30. S. Sur, M. Chellamuthu and J.P. Rothstein, High temperature extensional rheology of linear, branched and hyper-branched polycarbonates, Rheologica Acta 58 (2019) 557-572 [pdf]

  31. S. Khandavalli, P. Rogers and J.P. Rothstein, Roll-to-roll fabrication of hierarchical superhydrophobic surfaces, App. Phys. Lett. 113 (2018) 041601 [pdf]

  32. J.-H. Kim, J.P. Rothstein and J.K. Shang, Dynamics of a flexible superhydrophobic surface during a drop impact, Phys. Fluids 30 (2018) 072102 [pdf]

  33. S. Sur and J.P. Rothstein, ‘‘Drop breakup dynamics of dilute polymer solutions: Effect of molecular weight, concentration and viscosity ’’ J. Rheol. 62 (2018) 1245-1259 [pdf]

  34. S. Shah, J. Lee and J.P. Rothstein, "Numerical Simulations of the High Velocity Impact of a Single Polymer Particle during Cold Spray Deposition," J. Thermal Spray Technology 26 (2017) 970-984 [pdf]

  35. J.-H. Kim and J.P. Rothstein, "Role of interface shape on the laminar flow through an array of superhydrophobic pillars,’’ Microfluidics and Nanofluidics 21 (2017) 78 [pdf]

  36. T.B. Bush, Z. Khalkhali, D.P. Schmidt and J.P. Rothstein, "Cold spray deposition of high density polyethylene powders," J. Therm. Spray Technol. 26 (2017) 1548-1564 [pdf]

  37. S. Khandavalli and J.P. Rothstein, "Ink Transfer of Non-Newtonian Fluids in Gravure Printing: The Effect of Shear and Extensional Deformation," J. Non-Newtonian Fluid Mech. 243 (2017) 16-26. [pdf]

  38. A.A. Dey, Y. Modarres-Sadeghi and J.P. Rothstein, "Experimental Observation of Viscoelastic Fluid-Structure Interactions," J. Fluid Mechanics, 813 (2017) R5 [pdf]

  39. J.-H. Kim and J.P. Rothstein, "Droplet Impact Dynamics on Lubricant-Infused Superhydrophobic Surfaces: The Role of Viscosity Ratio," Langmuir 32 (2016) 10166-10176 [pdf]

  40. J.A. Paten, S.M. Siadat, M. Susilo, E. Ismail, J.L Stoner, J.P. Rothstein and J.W. Ruberti, "Flow-Induced Crystallization of Collagen: A Potentially Critical Mechanism in Early Tissue Formation," ACS Nano 10 (2016) 5027-5040 [pdf]

  41. S. Khandavalli, J. Hendricks, C.J.H. Clasen and J.P. Rothstein, "A Comparison of Linear and Branched Wormlike Micelles using Large Amplitude Oscillatory Shear and Orthogonal Superposition Rheology," J. Rheol., 60 (2016) 1331-1346 [pdf]

  42. H. Xu, A. Clarke, J.P. Rothstein and R.J. Poole, "Sliding viscoelastic drops on slippery surfaces," App. Phys. Lett., 108 (2016) 241602 [pdf]

  43. J.-H. Kim, J.P. Rothstein, "Delayed Lubricant Depletion on Liquid-Infused Randomly Rough Surfaces," Experiments in Fluids, 57 (2016) 81 [pdf]

  44. S. Khandavalli and J.P. Rothstein, "The effect of shear-thickening on slot-die coating," AIChE Journal, 62 (2016) 4536-4547 [pdf]

  45. T.D. Kassuga and J.P. Rothstein, "The Effect of Shear and Confinement on the Buckling of Particle-Laden Interfaces" J. Phys.: Condens. Matter 28 (2016) 025101 [pdf]

  46. S. Khandavalli, J.P. Rothstein, "Large amplitude oscillatory shear rheology of three different shear-thickening particle dispersions," Rheologica Acta, 54 (2015) 601-618 [pdf]

  47. A.R. Teixeira, C. Krumm, K. Vinter, A.D. Paulsen, C. Zhu, S. Maduskar, K. Joseph, K. Greco, M. Stelatto, E. Davis, B. Vincent, R. Hermann, W. Suszynski, L.D. Schmidt, W. Fan, J. Rothstein, P.J. Dauenhauer, "Reactive Liftoff of Crystalline Cellulose Particles," Scientific Reports, 5 (2015) 11238 [pdf]

  48. S. Khandavalli, J.A. Lee, M. Pasquali, J.P. Rothstein, "The Effect of Shear Thickening on Liquid Transfer during Gravure Printing," J. Non-Newtonian Fluid Mech., 221 (2015) 55-65. [pdf]

  49. T.D. Kassuga, J.P. Rothstein, "Buckling of particle-laden interfaces," J. Colloid Int. Sci., 448 (2015) 287-296 [pdf]

  50. J.-H. Kim, J.P. Rothstein, "Dynamic Contact Angle Measurements of Viscoelastic Fluids," J. Non-Newtonian Fluid Mech., 225 (2015) 54-61 [pdf]

  51. J.-H. Kim, H.P. Kavehpour, J.P. Rothstein, "Dynamic Contact Angle Measurements of Superhydrophobic Surfaces," Phys. Fluids, 27 (2015) 032107 [pdf]

  52. M.A. Nilsson J.P. Rothstein "Effect of Sandstone Permeability and Fluid Rheology on Enhanced Oil Recovery in a Microfluidic Sandstone Device," App. Rheol., 25 (2015) 25189 [pdf]

  53. D. Song, R. Daniello, and J.P. Rothstein, "Drag reduction using superhydrophobic sanded Teflon surfaces," Experiments in Fluids, 55 (2014) 1783. [pdf]

  54. R. Daniello, K. Khan, and J.P. Rothstein,"The effect of contact angle and density on the orientation and stability of cubes floating on a water interface," Phys. Rev. E 89 (2014) 023014. [pdf]

  55. S. Khandavalli, and J. P. Rothstein, "Extensional rheology of shear-thickening fumed silica nanoparticles dispersed in an aqueous polyethylene oxide solution," J. Rheol., 58 (2014) 411-431. [pdf]

  56. J. John, Y. Tang, J.P. Rothstein, J.J. Watkins, and K.R. Carter, "Large-Area, Continuous Roll-to-Roll Nanoimprinting with PFPE composite mold," Nanotech., 24 (2013) 505307 [pdf]

  57. J.A. Lee, J.P. Rothstein, and M. Pasquali, "Computational study of the role of elasticity in liquid transfer during a simplified gravure-like process," J. Non-Newtonian Fluid Mech., 199 (2013) 1-11. [pdf]

  58. R. Daniello, P. Muralidhar, N. Carron, M. Greene, J.P. Rothstein, "Effect of slip on vortex induced motion of a superhydrophobic circular cylinder," J. Fluid Struct., 42 (2013) 358-368. [pdf]

  59. J. Feng and J.P. Rothstein, "Novel microfluidic diodes: one-way wicking in open micro-channels controlled by channel topography," J. Colloid and Interface Sci., 404 (2013) 169-178. [pdf]

  60. M. Nilsson and J.P. Rothstein, "The effect of fluid rheology on enhanced oil recovery using a microfluidic sandstone device," J. Non-Newtonian Fluid Mech., 202 (2013) 112-119. [pdf]

  61. M. Mulligan and J.P. Rothstein, "Scale-up and Control of droplet production in coupled microfluidic flow focusing geometries," Microfluidics and Nanofluidics 13 (2012) 65-73 [pdf]

  62. M. Nilsson and J.P. Rothstein, "Using sharp transition in contact angle hysteresis to move and deflect droplets on a superhydrophobic surface," Phys. Fluids, 24 (2012) 062001 [pdf]

  63. A.K. Sankaran and J.P. Rothstein, "The Effect of Viscoelasticity on Liquid Transfer during Gravure Printing," J. Non-Newtonian Fluid Mech. 175-176 (2012) 64-75 [pdf]

  64. M. Nilsson, H. Goumnerov and J.P. Rothstein, "Two dimensional microfluidics devices for sorting, mixing and analyzing droplets," submitted Lab on a Chip, (2011) [pdf]

  65. E. Bischoff White and J.P. Rothstein, Extensional flow-induced crystallization of polypropylene, Rheologica Acta 51 (2012) 303-314 [pdf]

  66. J. Feng, M. Tuominen, and J.P. Rothstein, Heirarchical superhydrophobic surfaces fabricated by dual-scale electron-beam lithography with well-ordered secondary nano-structures, Advanced Functional Matterials 21 (2011) 3715-3722 [pdf].

  67. M. Mulligan, M. and J.P. Rothstein, Deformation and breakup of micro- and nano-particle stabilized droplets in microfluidic extensional flows, Langmuir 27 (2011) 9760-9768 [pdf].

  68. M. Nilsson and J.P. Rothstein, The effect of contact angle hysteresis on droplet coalescence and mixing, J. Colloid and Interface Sci. 363 (2011) 646–654 [pdf]

  69. J. Feng and J.P. Rothstein., Simulations of novel nanostructures formed by capillary effects in lithography, J. Colloid and Interface Science 354 (2011) 386-395 [pdf].

  70. M.D. Graham and J.P. Rothstein, Special Issue: XVIth International Workshop on Numerical Methods for Non-Newtonian Flows, Northhampton, MA, June 13-16, 2010, J. Non-Newtonian Fluid Mech., 166 (2011) V-VII.

  71. J.P. Rothstein, Slip on superhydrophobic surfaces, Annual Review of Fluid Mechanics 42, (2010) 89-109 [pdf]

  72. J.M. Rathfon, R.W. Cohn, A.J. Crosby, J.P. Rothstein and G.N. Tew, Confinement effects on chain entanglement in free-standing polystyrene ultra-thin films, Macromolecules 44 (2011) 5436-5442 [pdf].

  73. M. Mulligan and J.P. Rothstein. Effect of confinement on drop deformation and breakup in microfluidic extensional flows, Physics of Fluids 23 (2011) 022004 [pdf]

  74. P. Muralidhar, N. Ferrer, R. Daniello and J.P. Rothstein, The influence of slip on the flow past superhydrophobic circular cylinders, in press in J. Fluid Mechanics (2011) [pdf]

  75. M. Chellamuthu, D. Arora, H. H. Winter, and J. P. Rothstein, Extensional flow-induced crystalization of isotactic poly(1-butene), J. Rheology 55 (2011) 901-922 [pdf]

  76. M. Martell, J. P. Rothstein and J.B. Perot, An analysis of superhydrophobic turbulent drag reduction mechanisms using direct numerical simulation , Phys. Fluids, 22 (2010) 065102 [pdf]

  77. E. Miller, M. Rotea and J. P. Rothstein, Microfluidic device incorporating closed loop feedback control for uniform and tunable production of micro-droplets and emulsions, accepted in Lab on a Chip 10 (2010) 1293-1301 [pdf]

  78. G. R. Moss and J. P. Rothstein, Flow of Viscoelastic Wormlike Micelle Solutions past a Confined Circular Cylinder, J. Non-Newtonian Fluid Mech. 165 (2010) 1505-1515 [pdf]

  79. E. E. Bischoff White, M. Chellamuthu and J. P. Rothstein , Extensional Rheology of a Shear-Thickening Cornstarch and Water Suspension, Rheologica Acta 49 (2010) 119-129 [pdf]

  80. M. Nilsson, R. Daniello and J.P. Rothstein, A novel and inexpensive technique for creating superhydrophobic surfaces using teflon and sandpaper, J. Physics D: Applied Physics 43 (2010) 045301 [pdf] [Cover Art]

  81. G. R. Moss and J. P. Rothstein, Flow of viscoelastic wormlike micelle solutions through a periodic array of cylinders, J. Non-Newtonian Fluid Mechanics 165 (2009) 1-13 [pdf]

  82. R. Daniello, N. E. Waterhouse, and J. P. Rothstein, Turbulent drag reduction using superhydrophobic surfaces, Physics of Fluids 21 (2009) 085103 [pdf]

  83. M. B. Martell, J. B. Perot, and J. P. Rothstein, Direct numerical simulations of turbulent flows over superhydrophobic surfaces, J. Fluid Mechanics 620 (2009) 31-41 [pdf]

  84. M. Chellamuthu, E. M. Arndt, and J. P. Rothstein, Extensional rheology of shear-thickening nanoparticle suspensions, Soft Matter 5 (2009) 2117-2124 [pdf]

  85. E. Miller, C. Clasen, and J. P. Rothstein, The effect of step-stretch parameters on capillary breakup extensional rheology (CaBER) measurements, Rheologica Acta 48 (2009) 625-638 [pdf]

  86. J.P. Rothstein."Strong flows of viscoelastic wormlike micelle solutions," in Rheology Reviews, D.M. Binding and K.Walters eds., The British Society of Rheology, Aberystwyth, Wales, UK (2009) [pdf]

  87. M. Chellamuthu and J. P. Rothstein. Distinguishing between linear and branched wormlike micelle solutions using extensional rheology measurements, J. Rheology 52 (2008) 865-884 [pdf]

  88. J. Thompson and J. P. Rothstein. The atomization of viscoelastic fluids in flat-fan and hollow-cone spray nozzles, J. Non-Newtonian Fluid Mechanics 147 (2007) 11-22. [pdf]

  89. E. Miller and J. P. Rothstein. Transient evolution of shear banding in wormlike micelle solutions, J. Non-Newtonian Fluid Mechanics 143 (2007) 22-37. [pdf]

  90. A. Bhardwaj, D. Richter, M. Chellamuthu and J. P. Rothstein. The effect of preshear on the extensional rheology of wormlike micelle solutions, Rheologica Acta 46 (2007) 861-875. [pdf]

  91. A. Bhardwaj, E. Miller, and J. P. Rothstein Filament stretching and capillary breakup extensional rheometry measurements of viscoelastic wormlike micelle solutions, J. Rheology 51 (2007) 693-719. [pdf]

  92. J. Ou, G. Moss and J.P. Rothstein. Enhanced Mixing in Laminar Flows past Ultrahydrophobic Surfaces, Physical Reviews E 76 (2007) 016304-1 - 016304-10 [pdf]

  93. K. V. Edmond, M. Marquez J. P. Rothstein, A. D. Dinsmore. Stable Jets of Viscoelastic Fluids and Self-Assembled Cylindrical Capsules by Hydrodynamic Focusing, Langmuir 22 (2006) 9052-9056 [pdf]

  94. E. Miller, S. J. Lee, and J. P. Rothstein. The effect of temperature gradients on the sharkskin surface instability in polymer extrusion through a slit die, Rheologica Acta 45 (2006) 943-950. [pdf]

  95. J. Ou and J. P. Rothstein. Drag Reduction and m-PIV Measurements of the Flow Past Ultrahydrophobic Surfaces, Phys. Fluids 17 (2005) 103606 [pdf]

  96. E. Miller, B. Gibson, E. McWIlliams and J. P. Rothstein The Collision of Viscoelastic Jets and the Formation of Fluid Webs, Applied Physics Letters 87 (2005) 014101 [pdf]

  97. J. Lampe, R. DiLalla, J. Grimaldi and J. P. Rothstein Impact Dynamics of Drops on Thin Films of Viscoelastic Wormlike Micelle Solutions, J. Non-Newtonian Fluid Mechanics 125 (2005) 11-23. [pdf]

  98. E. Miller and J. P. Rothstein. Characterization and control of the sharkskin instability through localized thermal modification, Rheologica Acta 44 (2004) 160-173. [pdf]

  99. J. Ou, J. B. Perot and J. P. Rothstein. Laminar drag reduction in microchannels using ultrahydrophobic surfaces, Physics of Fluids 16 (2004) 4635-4643. [pdf]

  100. S. Chen and J. P. Rothstein. Flow of a wormlike micelle solution past a falling sphere, J. Non-Newtonian Fluid Mech. 116 (2004) 205-234. [pdf]

  101. J. P. Rothstein. Transient extensional rheology of wormlike micelle solutions, J. Rheol. 47 (2003) 1227-1247. [pdf]

  102. J.P. Rothstein and G.H. McKinley. Inhomogeneous transient uniaxial rheometry, J. Rheol., 46 (2002) 1419-1443.  [pdf]

  103. J.P. Rothstein and G.H. McKinley. A comparison of the stress and birefringence growth of dilute, semi-dilute and concentrated polymer solutions in uniaxial extensional flows, J. Non-Newtonian Fluid Mech., 108 (2002) 275-290.  [pdf]

  104. J.P. Rothstein and G.H. McKinley. The axisymmetric contraction-expansion: The role of extensional rheology on vortex growth dynamics and the enhanced pressure drop, J. Non-Newtonian Fluid Mech., 98 (2001) 33-63.  [pdf]

  105. J.P. Rothstein and G.H. McKinley. Non-isothermal modification of purely elastic flow instabilities in torsional flows of polymeric fluids, Phys. Fluids, 13 (2001) 382-396.

  106. J.P. Rothstein and G.H. McKinley. Axisymmetric flow-induced birefringence measurements for the flow of a polystyrene Boger fluid into an abrupt contraction-expansion, Proceedings of the XIIIth International Congress on Rheology, (2000) [pdf]

  107. J.P. Rothstein and G.H. McKinley. Extensional flow of a polystyrene Boger fluid through a 4:1:4 axisymmetric contraction-expansion, J. Non-Newtonian Fluid Mech., 86 (1999) 61-88  [pdf]

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