{"id":49,"date":"2019-07-31T01:46:32","date_gmt":"2019-07-31T01:46:32","guid":{"rendered":"http:\/\/www.pojman.com\/home\/?page_id=49"},"modified":"2025-12-09T01:47:53","modified_gmt":"2025-12-09T01:47:53","slug":"peer-reviewed-publications","status":"publish","type":"page","link":"http:\/\/www.pojman.com\/home\/research-and-publications\/peer-reviewed-publications\/","title":{"rendered":"Peer Reviewed Publications"},"content":{"rendered":"\t\t
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Peer-Reviewed Journal Publications<\/h2>\t\t\t\t<\/div>\n\t\t\t\t<\/div>\n\t\t\t\t
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  1. Kondepudi, D. K.; Pojman, J. A.; Malek-Mansour, M., “Nonequilibrium Processes in Polymers Undergoing Interchange Reactions 1.:\u00a0 Relaxation Rates,”\u00a0J. Phys. Chem.,<\/em>\u00a01989<\/strong>,\u00a093<\/em>,\u00a0 5931-5937.<\/li>
  2. Pojman, J. A., “Boltzmann\u2019s\u00a0H<\/em>– Theorem Applied to Simulations of Polymer Interchange Reactions,”\u00a0\u00a0J. Chem. Ed.\u00a0<\/em>,\u00a01990<\/strong>,\u00a067<\/em>, 200-202.<\/em><\/li>
  3. Pojman, J. A., “A Simple Demonstration of Convective Effects on Reaction-Diffusion Systems:\u00a0 A Burning Cigarette,”\u00a0\u00a0J. Chem. Ed.<\/em>,\u00a01990<\/strong>,\u00a067<\/em>, 792-794.<\/li>
  4. Whitesell, J. K.; Pojman, J. A., “Kinetics of Formation of Homochiral and Heterochiral Polyesters:\u00a0 Polymers derived from Mandelic Acid,”\u00a0Chem. Mater.\u00a0<\/em>,\u00a01990<\/strong>,\u00a02<\/em>, 248-254.<\/em><\/li>
  5. Lynch,V. M.; Pojman, J. A.; Whitesell, J. K.; Davis, R. E, “The Structure of (S,S)-3,6-Diphenyl-1,4-dioxane-2,5-dione,”\u00a0Acta Cryst.<\/em>,\u00a01990<\/strong>,\u00a0C46<\/em>, 1125-1127.<\/em><\/li>
  6. Pojman, J. A.; Epstein, I.R. “Convective Effects on Chemical Waves. 1.:\u00a0 Mechanisms and Stability Criteria, ”\u00a0J. Phys. Chem.<\/em>\u00a01990<\/strong>,\u00a094<\/em>, 4966-4972.<\/li>
  7. Pojman, J. A.; Epstein, I. R.; McManus, T.; Showalter, K., “Convective Effects on Chemical Waves. 2.:\u00a0 Simple Convection in the Iodate-Arsenous Acid System,”\u00a0\u00a0J. Phys. Chem.<\/em>\u00a01991<\/strong>,\u00a095<\/em>, 1299-1306.<\/li>
  8. Pojman, J. A.; Epstein, I. R.; Nagy, I. , “Convective Effects on Chemical Waves. 3.:\u00a0 Multicomponent Convection in the Iron(II)-Nitric Acid System,”\u00a0J. Phys. Chem.<\/em>\u00a01991<\/strong>,\u00a095<\/em>, 1306-1311.<\/li>
  9. Pojman, J. A.; Epstein, I. R.; Karni, Y.; Bar-Ziv, E., “Stochastic Coalescence-Redispersion Model for Molecular Diffusion and Chemical Reactions. 2. Chemical Waves,”\u00a0\u00a0J. Phys. Chem.<\/em>\u00a01991<\/strong>,\u00a095<\/em>, 3017-3021.<\/li>
  10. Pojman, J. A.; Garcia, A. L.; Kondepudi, D. K.; Van den Broeck, C., “Nonequilibrium Processes in Polymers Undergoing Interchange Reactions. 2.\u00a0 Reaction-Diffusion Processes,”\u00a0J. Phys. Chem.<\/em>\u00a01991<\/strong>,\u00a095<\/em>, 5655-5660.<\/li>
  11. Pojman, J. A., “Traveling Fronts of Methacrylic Acid Polymerization,”\u00a0J. Am. Chem. Soc<\/em>.,\u00a01991<\/strong>,\u00a0113<\/em>, 6284-6286.<\/li>
  12. Pojman, J. A.; Dedeaux, H, Fortenberry, D. “Stirring Effects in the Mn-Catalyzed Belousov-Zhabotinskii Reaction with a Mixed Hypophosphite\/Acetone Substrate in a Batch Reactor,”\u00a0J. Phys. Chem.<\/em>,\u00a01992<\/strong>,\u00a096<\/em>, 7331-7333.<\/em><\/li>
  13. Pojman, J. A.; Craven, R.; Khan, A.; West, W. “Convective Instabilities Induced by Traveling Fronts of Addition Polymerization,”\u00a0J. Phys. Chem.<\/em>,\u00a01992<\/strong>,\u00a096<\/em>, 7466-7472.<\/li>
  14. Pojman, J. A.; Leard, D. C.; West, W. “The Periodic Polymerization of Acrylonitrile in the Cerium-Catalyzed Belousov-Zhabotinskii Reaction,”\u00a0J. Am. Chem. Soc.,<\/em>\u00a01992<\/strong>,\u00a0114<\/em>, 8298-8299.<\/li>
  15. Nagy, I. P.; Pojman, J. A. “Measurement of The Temperature Profile of Chemical Waves by Thermocolor Imaging,”\u00a0Chem. Phys. Lett.\u00a0<\/em>1992<\/strong>,\u00a0200<\/em>, 147-152.<\/li>
  16. Nagy, I. P.; Pojman, J. A. “Multicomponent Convection Induced by Fronts in the Chlorate-Sulfite Reaction,”\u00a0J. Phys. Chem.<\/em>,\u00a01993<\/strong>,\u00a097<\/em>, 3443-3449.<\/li>
  17. Pojman, J. A.; Nagy, I. P.; Salter, C. “Traveling Fronts of Addition Polymerization with a Solid Monomer,”J. Am. Chem. Soc.\u00a0<\/em>1993<\/strong>,\u00a0115,\u00a0<\/em>11044-11045.<\/li>
  18. Pojman, J. A.; Craven, R.; Leard, D. “Oscillations and Chemical Waves in the Physical Chemistry Lab,”\u00a0J. Chem. Ed.,\u00a0<\/em>1994<\/strong>,\u00a071,\u00a0<\/em>84-90.<\/li>
  19. Volpert, Vit. A.; Volpert, Vl. A.; Pojman, J. A. “Effect of Thermal Expansion on Stability of Reaction Front Propagation,”\u00a0Chem. Eng. Sci.\u00a0<\/em>1994<\/strong>,\u00a014<\/em>, 2385-2388.<\/li>
  20. Nagy, I. P.; Keresztessy, A.; Pojman, J. A.; Bazsa, G.; Noszticzius, Z. “Chemical Waves in the Iodide-Nitric Acid System,”J. Phys. Chem.\u00a0<\/em>1994<\/strong>,\u00a094<\/em>, 6030-6037.<\/li>
  21. Pojman, J. A.; Willis, J.; Fortenberry, D.; Ilyashenko, V.; Khan, A. “Factors Affecting Propagating Fronts of Addition Polymerization:\u00a0 Velocity, Front Curvature, Temperature Profile, Conversion and Molecular Weight Distribution,”\u00a0\u00a0J. Polym. Sci. Part A: Polym Chem.\u00a0<\/em>1995<\/strong>,\u00a033,\u00a0<\/em>643-652.<\/li>
  22. Pojman, J. A.; Ilyashenko, V. M.; Khan, A. M. “Spin Mode Instabilities in Propagating Fronts of Polymerization,”\u00a0Physica D<\/em>\u00a0\u00a01995<\/strong>,\u00a084<\/em>,\u00a0 260-268.<\/li>
  23. Nagy, I. P.; Sike, L.; Pojman, J. A. “Thermochromic Composite Prepared Via a Propagating Polymerization Front,”\u00a0J. Am. Chem. Soc.<\/em>\u00a01995<\/strong>,\u00a0117<\/em>, 3611-3612.<\/li>
  24. Keresztessy, A.; Nagy, I. P.; Bazsa, G.; Pojman, J. A. “Traveling Waves in the Iodate-Sulfite and Bromate-Sulfite Systems,”\u00a0J. Phys. Chem.<\/em>\u00a01995<\/strong>,\u00a099<\/em>, 5379-5384.<\/li>
  25. Nagy, I. P.; Keresztessy, A.; Pojman, J. A. “Periodic Convection\u00a0 in the Bromate – Sulfite Reaction:\u00a0 a \u2018Jumping Wave\u2019,”\u00a0J. Phys. Chem.<\/em>\u00a01995<\/strong>,\u00a099<\/em>, 5385-5388.<\/li>
  26. Volpert, Vit. A. Volpert, Vl. A.; Pojman, J. A.; Solovyov, S. E. “Hydrodynamic Stability of a Polymerization Front,”\u00a0Eur. J. Appl. Math.\u00a0<\/em>1996<\/strong>,\u00a07,\u00a0<\/em>303-320.<\/li>
  27. Ilyashenko, V.; Solovyov, S.; Pojman, J. A. “Theoretical Aspects of Self-Propagating Reaction Fronts in Condensed Medium,”\u00a0AIChE Journal<\/em>\u00a01995<\/strong>,\u00a041,\u00a0<\/em>2631-2636.<\/li>
  28. Nagy, I. P.; Sike, L.; Pojman, J. A., “Thermochromic Composites and Propagating Polymerization Fronts,”\u00a0Adv. Mat.<\/em>\u00a01995<\/strong>,\u00a07<\/em>, 1038-1040.<\/li>
  29. Pojman, J. A.; West W. W. “A Unified Physical Chemistry Lab Based on Oscillating Reactions and Traveling Fronts”,\u00a0J. Chem. Ed.<\/em>\u00a01996<\/strong>,\u00a073<\/em>, 35.<\/li>
  30. Pojman, J. A.;Willis, J. R.; Khan , A. M.; West, W. W., “The True Molecular Weight Distributions of Acrylate Polymers formed in Propagating Fronts,”\u00a0J. Polym. Sci. Part A: Polym Chem.\u00a0<\/em>1996<\/strong>,\u00a034<\/em>, 991-995.<\/li>
  31. Nagy, I. P.; Pojman, J. A., “Suppressing Convective Instabilities in Propagating Fronts by Tube Rotation,”\u00a0J. Phys. Chem.\u00a0\u00a0<\/em>1996<\/strong>,\u00a0100<\/em>, 3299-3304.<\/li>
  32. Strizhak, P. E.; Pojman, J. A. “Application of Bifurcation Theory to Oscillations in a Semibatch Reactor:\u00a0 Infinite period and Hopf bifurcations for the pH-regulated oscillations in the H2O2\u00a0– Cu2+\u00a0– S2O32\u2013-NaOH system,”\u00a0Chaos\u00a0<\/em>\u00a01996<\/strong>,\u00a06<\/em>, 461-465.<\/li>
  33. Pojman, J. A.; Ilyashenko, V. M.; Khan, A. M. “Free-Radical Frontal Polymerization:\u00a0 Self-Propagating Thermal Reaction Waves,”J. Chem. Soc. Faraday Trans.\u00a0<\/em>1996<\/strong>,\u00a092,\u00a0<\/em>2824-2836.<\/li>
  34. Pojman, J. A.; Curtis, G.; Ilyashenko, V. M. “Frontal Polymerization in Solution,”\u00a0J. Am. Chem. Soc.\u00a0<\/em>1996<\/strong>,\u00a0118<\/em>, 3783-3784.<\/li>
  35. Khan, A. M.; Pojman, J. A. “The Use of Frontal Polymerization in Polymer Synthesis,”Trends Polym. Sci. (Cambridge, U.K.)\u00a0<\/em>1996<\/strong>,\u00a04,\u00a0<\/em>253-257.<\/li>
  36. Pojman, J. A.; Koml\u00f3si, A.; Nagy, I. P. “Double-Diffusive Convection in Traveling Waves in the Iodate-Sulfite System Explained,”\u00a0J. Phys. Chem.\u00a0<\/em>1996<\/strong>,\u00a0100<\/em>, 16209-16212.<\/li>
  37. Pojman, J. A.; Elcan, W.; Khan, A. M.; Mathias, L. “Binary Polymerization Fronts:\u00a0 A New Method to Produce Simultaneous Interpenetrating Polymer Networks (SINs),”J. Polym. Sci. Part A: Polym Chem.\u00a0<\/em>1997<\/strong>,\u00a035,\u00a0<\/em>227-230.<\/li>
  38. Bowden, G.; Garbey, M.; Ilyashenko, V. M.; Pojman, J. A.; Solovyov, S.; Taik, A.; Volpert, V. “The Effect of Convection on a Propagating Front with a Solid Product:\u00a0 Comparison of Theory and Experiments,”J. Phys. Chem. B\u00a0<\/em>1997<\/strong>,\u00a0101,\u00a0<\/em>678-686.<\/li>
  39. Solovyov, S. E.; Ilyashenko, V. M.; Pojman, J. A. “Numerical Modeling of Self-Propagating Fronts of Addition Polymerization: The Role of Kinetics on Front Stability,”\u00a0Chaos\u00a0\u00a0<\/em>1997<\/strong>,\u00a07,\u00a0<\/em>331-340.<\/li>
  40. Pojman, J. A.; West, W. W.; Simmons, J. “Propagating Fronts of Polymerization in the Physical Chemistry Laboratory,”\u00a0J. Chem. Ed.\u00a0<\/em>1997<\/strong>,\u00a074,\u00a0<\/em>727-730.<\/li>
  41. Goldfeder, P. M.; Volpert, V. A.; Ilyashenko, V. M.; Khan, A. M.; Pojman, J. A.;\u00a0<\/em>Solovyov, S. E. “Mathematical Modeling of Free Radical Polymerization Fronts,”J. Phys. Chem. B\u00a0<\/em>1997<\/strong>,\u00a0101,\u00a0<\/em>3474-3482.<\/li>
  42. Pojman, J.; Fortenberry, D.; Ilyashenko, V. “Frontal Polymerization as an Analog of SHS,”\u00a0Int. J. Self-Propag. High-Temp. Synth.<\/em>\u00a01997<\/strong>,\u00a06<\/em>, 355-376.<\/li>
  43. Chekanov, Y.; Arrington, D.; Brust, G.; Pojman, J. A. “Frontal Curing of Epoxy Resin:\u00a0 Comparison of Mechanical and Thermal Properties to Batch Cured Materials,”J. Appl. Polym. Sci.\u00a0<\/em>1997<\/strong>,\u00a066,\u00a0<\/em>1209-1216.<\/li>
  44. Pojman, J. A.; Khan, A. M.; Mathias, L. J. “Frontal Polymerization in Microgravity:\u00a0 Results from the\u00a0Conquest I<\/em>\u00a0Sounding Rocket Flight,”Microg. sci. technol.\u00a0<\/em>1997<\/strong>,\u00a0X,\u00a0<\/em>36-40<\/li>
  45. Volpert, Vit; Volpert, Vl.; Ilyashenko, V.; Pojman, J. A. “Frontal Polymerization in a Porous Medium,”\u00a0Chem. Eng. Sci.\u00a0<\/em>1998<\/strong>,\u00a053<\/em>, 1655-1665.<\/li>
  46. Ilyashenko, V. M.; Pojman, J. A. “Single Head Spin Modes in Frontal Polymerization,”Chaos\u00a0<\/em>\u00a01998<\/strong>,\u00a08<\/em>, 285-289.<\/li>
  47. Misra, G. P.; Washington, R. P.; Pojman, J. A. “New Experimental and Computational Results on the Radical-Controlled Oscillating Belousov-Zhabotinsky Reaction,”J. Phys. Chem. Part A.\u00a0<\/em>1998<\/strong>,\u00a0102,\u00a0<\/em>612-619.<\/li>
  48. Masere, J.; Pojman, J. A. “Free Radical-Scavenging Dyes as Indicators of Frontal Polymerization Dynamics,”J. Chem. Soc. Faraday Trans.\u00a0<\/em>1998<\/strong>,\u00a094,\u00a0<\/em>919-922.<\/li>
  49. McCaughey, B.; Pojman, J. A.; Simmons, C.; Volpert, V. A. “The Effect of Convection on a Propagating Front with a Liquid Product:\u00a0 Comparison of Theory and Experiments,”Chaos\u00a0<\/em>\u00a01998<\/strong>,\u00a08<\/em>, 520-529.<\/li>
  50. Pojman, J. A.; Gunn, G.; Patterson, C.; Owens, J.; Simmons, C. “Frontal Dispersion Polymerization,”\u00a0J. Phys. Chem. B<\/em>;\u00a01998<\/strong>,\u00a0102<\/em>, 3927-3929.<\/li>
  51. Komlosi, A.; Nagy, I. P.; Pojman, J. A. “Convective Chemical Fronts in the 1,4-Cyclohexanedione-Bromate-Sulfuric Acid-Ferroin System,”\u00a0J. Phys. Chem. A<\/em>,\u00a01998<\/strong>, 9136-9141.<\/li>
  52. Masere,J.; Stewart, F.; Meehan, T.; Pojman, J. A. “Period-doubling Behavior in Frontal Polymerization of Multifunctional Acrylates,”\u00a0Chaos<\/em>,\u00a01999<\/strong>,\u00a09<\/em>, 315-322<\/li>
  53. Washington, R. P; Misra, G. P.; West, W. W.; Pojman, J. A. “Polymerization Coupled to Oscillating Reactions:\u00a0 I. A Mechanistic Investigation and Numerical Simulation of\u00a0 Acrylonitrile Polymerization in the Belousov-Zhabotinsky Reaction in a Batch Reactor”,\u00a0J. Am. Chem. Soc.<\/em>\u00a01999<\/strong>,\u00a0121<\/em>,7373-7380.<\/li>
  54. Pojman, J. A.; Epstein, I. R. “Nonlinear Chemical Dynamics in Polymeric Systems,”\u00a0Chaos<\/em>,\u00a01999<\/strong>,\u00a09<\/em>, 255-259.<\/li>
  55. Pojman, J. A. ” Studying Nonlinear Dynamics with Numerical Experiments: Dynamics.mcd,”\u00a0J. Chem. Educ.\u00a0<\/em>1999<\/strong>,\u00a076<\/em>, 1310.<\/li>
  56. Fortenberry, D. I.; Pojman, J. A. “Solvent-Free Synthesis of Polyacrylamide by Frontal Polymerization,”J. Polym. Sci. Part A: Polym Chem.\u00a0<\/em>2000<\/strong>,\u00a038<\/em>, 1129-1135.<\/li>
  57. Texier-Picard, R.; Pojman, J. A.; Volpert, V. A. “Effect of Interfacial Tension on Propagating Polymerization Fronts,”Chaos\u00a0<\/em>2000<\/strong>,\u00a010,\u00a0<\/em>224-230.<\/li>
  58. Masere, J.; Chekanov, Y..; Warren, J. R.; Stewart, F.; Al-Kaysi, R.; Rasmussen, J. K.; Pojman, J. A. “Gas-free Initiators for High-Temperature Polymerization,”J. Poly. Sci. Part A. Polym. Chem.\u00a0<\/em>2000<\/strong>,\u00a038,\u00a0<\/em>\u00a03984-3990.<\/li>
  59. Chekanov, Y. A.; Pojman, J. A. “Preparation of Functionally Gradient Materials Via Frontal Polymerization,”J. Appl. Polym. Sci.\u00a0<\/em>2000<\/strong>,\u00a078,\u00a0<\/em>2398-2404.<\/li>
  60. Pojman, J. A. “Nonlinear chemical dynamics in synthetic polymeric systems: motivations and strategies for success,”\u00a0<\/em>Macromol. Symp.<\/em>\u00a0\u00a02000<\/strong>,\u00a0160<\/em>, 207-214.<\/li>
  61. Manz, B.; Masere, J.; Pojman, J. A.; Volke, F. “Magnetic Resonance Imaging of Spiral Patterns in Crosslinked Polymer Gels Produced via Frontal Polymerization,”J. Poly. Sci. Part A. Polym. Chem.\u00a0<\/em>2001<\/strong>,\u00a039,\u00a0<\/em>1075-1080.<\/li>
  62. Masere, J.; Lewis, L. L.; Pojman, J. A. “Optical Gradient Materials Produced Via Low-Temperature Isothermal Frontal Polymerization,”J. Appl. Polym. Sci.\u00a0<\/em>2001<\/strong>,\u00a080,\u00a0<\/em>686-691.<\/li>
  63. Allali, K.; Pojman, J.; Volpert, V. “Influence of Vibrations on Convective Instability of Polymerization Fronts,”J. Eng. Math.\u00a0<\/em>2001<\/strong>,\u00a041,\u00a0<\/em>13-31.<\/li>
  64. Mariani, A.; Fiori, S.; Chekanov, Y.; Pojman, J. A. “Frontal Ring-Opening Metathesis Polymerization of Dicyclopentadiene,”Macromolecules\u00a0<\/em>2001<\/strong>,\u00a034,\u00a0<\/em>6539-6541.<\/li>
  65. Pojman, J. A.; Masere, J.; Petretto, E.; Rustici, M.; Huh, D.-S.; Kim, M. S.; Volpert, V. “The Effect of Reactor Geometry on Frontal Polymerization Spin Modes,”Chaos\u00a0<\/em>2002<\/strong>,\u00a012<\/em>, 56-65.<\/li>
  66. Volpert, Vit. A ; Pojman, J. A.; Texier-Picard, R.”Convection Induced by Composition Gradients in Miscible Systems,”\u00a0C. R. Mecanique<\/em>,\u00a02002<\/strong>,\u00a0330<\/em>, 353-358.<\/li>
  67. Bazile\u00a0Jr., M.; Nichols, H. A.; Pojman, J. A.; Volpert, V. “The Effect of Orientation on Thermoset Frontal Polymerization,”J. Polym. Sci. Part A: Polym Chem.<\/em>\u00a02002<\/strong>,\u00a040<\/em>,\u00a03504-3508.<\/li>
  68. Gill, N.; Pojman, J. A.; Willis, J.; Whitehead, J. B. “Polymer Dispersed Liquid Crystal (PDLC) Materials Fabricated Using Frontal Polymerization,”J. Poly. Sci. Part A. Polym. Chem.\u00a0<\/em>2003<\/strong>,\u00a041<\/em>,\u00a0204-212.<\/em><\/li>
  69. Perry, M.F.; Volpert, Vl, A; Lewis, L. L.; Nichols, H. A.; Pojman, J. A. “Free-radical Frontal Copolymerization:\u00a0 The Dependence of the Front Velocity on the Monomer Feed Composition and Reactivity Ratios,”\u00a0\u00a0Macromolecular Theory and Simulations<\/em>2003<\/strong>,\u00a012<\/em>, 276-286.<\/li>
  70. Pojman, J. A.; Varisli, B.; Perryman, A.; Edwards, C.; Hoyle, C. “Frontal Polymerization with Thiol-Ene Systems,”Macromolecules\u00a0<\/em>2004<\/strong>,\u00a037,\u00a0<\/em>691-693.<\/li>
  71. Pojman, J. A.; Griffith, J.; Nichols, H. A. “Binary Frontal Polymerization:\u00a0 Velocity Dependence on Initial Composition”e-Polymers\u00a0<\/em>2004<\/strong>,\u00a013,\u00a0<\/em>1-7.<\/li>
  72. Bessonov, N.; Pojman, J. A.; Volpert, V. “Modelling of Diffuse Interfaces with Temperature Gradients,”\u00a0J. Engineering Math.\u00a0<\/em>2004<\/strong>,\u00a049,\u00a0<\/em>321-338.<\/li>
  73. McFarland, B.; Popwell, S.; Pojman, J. A. “Free-Radical Frontal Polymerization with a Microencapsulated Initiator,”\u00a0Macromolecules<\/em>\u00a02004<\/strong>,\u00a037<\/em>, 6670 – 6672.<\/li>
  74. Bessonov, N.; Pojman, J. A.; Volpert, V. \u201cModelling of miscible liquids and microgravity experiments,\u201d\u00a0Matapli<\/em>,(Journal of Soci\u00e9t\u00e9 de Math\u00e9matiques Appliqu\u00e9es & Industrielles)\u00a02004<\/strong>,\u00a075<\/em>, 51-66.<\/li>
  75. Lewis, L. L.; DeBisschop, C. S.; Pojman, J. A.; Volpert4, V. A. “Isothermal Frontal Polymerization: Confirmation of the Mechanism and Determination of Factors Affecting Front Velocity, Front Shape, and Propagation Distance with Comparison to Mathematical Modeling,”J. Polym. Sci. Part A Polym. Chem<\/em>.\u00a02005<\/strong>,\u00a043<\/em>, 5774-5786.<\/li>
  76. Chen, S.; Sui, J.; Chen, L.; Pojman, J. A. “Polyurethane-Nanosilica Hybrid Nanocomposites Synthesized by Frontal Polymerization,”\u00a0J. Polym. Sci. Part A Polym. Chem.<\/em>\u00a02005<\/strong>,\u00a043<\/em>, 1670-1680.<\/li>
  77. Bessonov, N.; Volpert, V. A.; Pojman, J. A.; Zoltowski, B. D. “Numerical Simulations of Convection Induced by Korteweg Stresses in Miscible Polymer- Monomer Systems,”\u00a0Microgravity Sci. Tech.<\/em>\u00a02005<\/strong>,\u00a0XVII<\/em>, 2-6.<\/li>
  78. Antrim, D.; Bunton, P.; Lewis, L. L.; Zoltowski, B. D.; Pojman, J. A. “Measuring the Mutual Diffusion Coefficient for Dodecyl Acrylate in Low Molecular Weight Poly(Dodecyl Acrylate) Using Laser Line Deflection (Wiener\u2019s Method) and the Fluorescence of Pyrene,”\u00a0J. Phys. Chem. Part B\u00a0<\/em>2005<\/strong>,\u00a0109<\/em>, 11842-11849.<\/a><\/li>
  79. Nason, C.; Roper, T.; Hoyle, C.; Pojman, J. A.”UV-Induced Frontal Polymerization of Multifunctional (Meth)Acrylates,”\u00a0Macromolecules<\/em>\u00a02005<\/strong>,\u00a038<\/em>, 5506-5512.<\/a><\/li>
  80. Devadoss, D. E.; Pojman, J. A.; Volpert, V. A. “Mathematical Modeling of Thiol-Ene Frontal Polymerization,”\u00a0Chem. Eng. Sci.<\/em>\u00a02006<\/strong>,\u00a061<\/em>, 1257-1271.<\/li>
  81. Binici, B.; Fortenberry, D. I.; Leard, K. C.; Molden, M.; Olten, N.; Popwell, S.; Pojman, J. A. “Spherically Propagating Thermal Polymerization Fronts,”\u00a0J. Polym. Sci. Part A: Polym. Chem.<\/em>\u00a02006<\/strong>,\u00a044<\/em>, 1387-1395.<\/li>
  82. McFarland, B.; Popwell, S.; Pojman, J. A. “Free-Radical Frontal Polymerization with a Microencapsulated Initiator: Characterization of Microcapsules and Their Effect on Pot Life, Front Velocity and Mechanical Properties,”\u00a0Macromolecules<\/em>\u00a02006<\/strong>,\u00a039<\/em>, 53-63.<\/li>
  83. Pojman, J. A.; Whitmore, C.; Turco Liveri, M. L.; Lombardo, R.; Marszalek, J.; Parker, R.; Zoltowski, B. “Evidence for the Existence of an Effective Interfacial Tension between Miscible Fluids: Isobutyric Acid-Water and 1-Butanol-Water in a Spinning-Drop Tensiometer,”\u00a0Langmuir<\/em>\u00a02006<\/strong>,\u00a022<\/em>, 2569-2577.<\/li>
  84. Gaponenko, Y.; Volpert, V.; Zen’kovskaya, S.; Pojman, J. “Effect of High-Frequency Vibration on Convection in Miscible Fluids,”\u00a0J. Appl. Mech.& Tech. Phys<\/em>.\u00a02006<\/strong>,\u00a047<\/em>, 190-198.<\/li>
  85. Hu, T.; Chen, S.; Tian, Y.; Pojman, J. A.; Chen, L. “Frontal Free-Radical Copolymerization of Urethane-Acrylates,”\u00a0J. Poly. Sci. Part A. Polym. Chem.<\/em>\u00a02006<\/strong>,\u00a044<\/em>, 3018-3024.<\/li>
  86. Evstratova, S. I.; Antrim, D.; Fillingane, C.; Pojman, J. A. “Isothermal Frontal Polymerization: Confirmation of the Isothermal Nature of the Process and the Effect of Oxygen and Polymer Seed Molecular Weight on Front Propagation,”\u00a0J. Polym. Sci. Part A: Polym. Chem.<\/em>\u00a02006<\/strong>,\u00a044<\/em>, 3601-3608.<\/li>
  87. Zoltowski, B.; Leard, K.; Carter, N.; Budzinski, K.; Ainsworth, W.; Pojman, J. A. “The Role of Gravity in the Motion of Plasma Arcs inside \u2018Plasma Balls\u2019: An Investigation in the NASA Reduced Gravity Student Flight Opportunities Program,”\u00a0Microgravity Sci. Tech<\/em>.\u00a02006<\/strong>,\u00a0XVIII<\/em>, 28-32.<\/li>
  88. Epstein, I. R.; Pojman, J. A.; Steinbock, O. “Introduction: Self-Organization in Nonequilibrium Chemical Systems,”\u00a0Chaos<\/em>\u00a02006<\/strong>,\u00a016<\/em>, 037101.<\/li>
  89. Hu, T.; Chen, S.; Tian, Y.; Chen, L.; Pojman, J. A. “Facile Synthesis of Poly (Hydroxyethyl Acrylate) by Frontal Free-Radical Polymerization,”\u00a0J. Polym. Sci. Part A Polym. Chem<\/em>.\u00a02007<\/strong>,\u00a045<\/em>, 873-881.<\/a><\/li>
  90. Pojman, J. A.; Bessonov, N.; Volpert, V. “Miscible Fluids in Microgravity (MFMG): A Zero-Upmass Investigation on the International Space Station,”\u00a0Microgravity Sci. Tech.<\/em>\u00a02007<\/strong>,\u00a0XIX<\/em>, 33-41..<\/li>
  91. Zoltowski, B.; Chekanov, Y.; Masere, J.; Pojman, J. A.; Volpert, V. “Evidence for the Existence of an Effective Interfacial Tension between Miscible Fluids. 2. Dodecyl Acrylate-Poly(Dodecyl Acrylate) in a Spinning Drop Tensiometer,”\u00a0Langmuir<\/em>\u00a02007<\/strong>,\u00a023<\/em>, 5522-5531.<\/a><\/li>
  92. Jim\u00e9nez, Z.; Pojman, J. A. “Frontal Polymerization with Monofunctional and Difunctional Ionic Liquid Monomers,”\u00a0J. Polym. Sci. Part A: Polym. Chem.<\/em>\u00a02007<\/strong>,\u00a045<\/em>, 2745 – 2754.<\/a><\/li>
  93. Jim\u00e9nez, Z.; Bounds, C.; Hoyle, C.; Lowe, A.; Pojman, J. A. “Photopolymerization Kinetics of Ionic Liquid Monomers Derived from Neutralization Reaction between Trialkylamines and Acid-Containing (Meth)Acrylates,”\u00a0J. Polym. Sci. Part A: Polym. Chem.<\/em>\u00a02007<\/strong>,\u00a045<\/em>, 3009-3021.<\/a><\/li>
  94. Marszalek, J.; Pojman, J. A.; Aultman, K. L.; Hoyle, C.; Whitehead, J. B. “Humidity-Responsive Polymeric Films Based on Aot-Water Reverse Microemulsions,”\u00a0J. Appl. Polym. Sci<\/em>.\u00a02007<\/strong>,\u00a0106<\/em>, 1957-1963.<\/li>
  95. Chen, S.; Hu, T.; Yu, H.; Chen, L.; Pojman, J. A. “First Solvent-Free Synthesis of Poly (N-Methylolacrylamide) Via Frontal Free Radical Polymerization,” J. Polym. Sci. Part A Polym. Chem<\/em>.\u00a02007\u00a0<\/strong>,45<\/em>, 4322 – 4330.<\/li>
  96. Mariani, A.; Alzari, V.; Monticelli, O.; Pojman, J. A.; Caria, G. “Polymeric Nanocomposites Containing Polyhedral Oligomeric Silsesquioxanes (Poss) Prepared Via Frontal Polymerization,”\u00a0J. Polym. Sci. Part A Polym. Chem<\/em>.\u00a02007<\/strong>,\u00a045<\/em>, 4514-4521.<\/li>
  97. Ray, E.; Bunton, P.; Pojman, J. A. “Determination of the Diffusion Coefficient between Corn Syrup and Distilled Water Using a Digital Camera,”\u00a0Amer. J. Phys.<\/em>\u00a02007<\/strong>,\u00a075<\/em>, 903-906.<\/li>
  98. Pojman, J. A.; Viner, V.; Binici, B.; Lavergne, S.; Winsper, M.; Golovaty, D.; Gross, L. “Snell\u2019s Law of Refraction Observed in Thermal Frontal Polymerization,”\u00a0Chaos<\/em>\u00a02007<\/strong>,\u00a017<\/em>, 033125.<\/li>
  99. Ward, M.; Wyatt, V.; Griffith, J.; Craft, T.; Neurath, A. R.; Strick, N.; Li, Y.-Y.; Wertz, D. L.; Pojman, J. A.; Lowe, A. B. “Anti-HIV-1 Activity of Poly(Mandelic Acid) Derivatives,”\u00a0Biomacromolecules<\/em>\u00a02007<\/strong>,\u00a08<\/em>, 3308 -3316.<\/li>
  100. Zhou, H.; Jim\u00e9nez, Z.; Pojman, J. A.; Paley, M. S.; Hoyle, C. E. “Photopolymerization Kinetics of Tributylmethylammonium-Based (Meth)Acrylate\u00a0
    Ionic Liquids and the Effect of Water,”\u00a0J. Polym. Sci. Part A Polym. Chem.<\/em>\u00a02008<\/strong>,\u00a046<\/em>, 3766-3773.<\/li>
  101. Bessonov, N.; Pojman, J.; Viner, G.; Volpert, V.; Zoltwoski, B. “Instabilities of Diffuse Interfaces,”\u00a0Math. Model. Nat. Phenom.<\/em>\u00a02008<\/strong>,\u00a03<\/em>, 108-125<\/li>
  102. Viner, G.; Pojman, J. A. “Studying Diffusion of Partially Miscible and Systems near Their Consolute Point by Laser Line Deflection,”\u00a0Optics and Laser in Engineering<\/em><\/a>\u00a02008<\/strong>,\u00a046<\/em>, 893\u2013899.<\/li>
  103. Nason, C.; Pojman, J. A.; Hoyle, C. “The Effect of a Trithiol and Inorganic Fillers on the Photo- Induced Thermal Frontal Polymerization of a Triacrylate”\u00a0J. Polym. Sci. Part A Polym. Chem.\u00a0<\/em>2008<\/strong>,\u00a046<\/em>,\u00a0<\/em>8091-8096.<\/li>
  104. Marszalek, J.; Pojman, J. A.; Page, K. A. “Neutron Scattering Study of the Structural Change Induced by Photopolymerization of AOT\/D2O\/Dodecyl Acrylate Inverse Microemulsions,”\u00a0Langmuir<\/em>\u00a02008<\/strong>,\u00a024<\/em>, 13694-13700<\/li>
  105. Pojman, J. A.; Chekanov, Y.; Wyatt, V.; Bessonov, N.; Volpert, V. “Numerical Simulations of Convection Induced by Korteweg Stresses in a Miscible Polymer- Monomer System: Effects of Variable Transport Coefficients, Polymerization Rate and Volume Changes,”\u00a0Microgravity Sci. Tech.<\/em>\u00a02009<\/strong>,\u00a021<\/em>, 225-237.<\/li>
  106. Scognamillo, S.; Bounds, C.; Luger, M.; Mariani, A.; Pojman, J. A. “Frontal Cationic Curing of Epoxy Resins,”\u00a0J. Polym. Sci. Part A: Polym. Chem.<\/em>\u00a02010<\/strong>,\u00a048<\/em>, 2000-2005.<\/li>
  107. Viner, V. G.; Pojman, J. A.; Golovaty, D. “The Effect of Phase Change Materials on the Frontal Polymerization of a Triacrylate,”\u00a0Physica D: Nonlinear Phenomena<\/em>2010<\/strong>,\u00a0239<\/em>, 838-847.<\/li>
  108. Hu, G.; Pojman, J. A.; Bounds, C.; Taylor, A. F. “Time-Lapse Thiol-Acrylate Polymerization Using a pH Clock Reaction,”\u00a0J. Polym. Sci. Part A: Polym. Chem.<\/em>\u00a02010<\/strong>,\u00a048<\/em>, 2955-2959.<\/li>
  109. Hu, G.; Pojman, J. A.; Scott, S. K.; Wrobel, M. M.; Taylor, A. F. “Base-Catalyzed Feedback in the Urea\u2013Urease Reaction,”\u00a0J. Phys. Chem. B<\/em>\u00a02010<\/strong>,\u00a0114<\/em>, 14059-14063.<\/li>
  110. Major, S. R.; Fontenot Jr., C. L.; Pojman Sr., J. A.; Pojman Jr., J. A.; Merchant, M. E. “Serum Complement Activity in the Three-Toed Amphiuma (Amphiuma Tridactylum<\/em>),”\u00a0Comparative Microbiology, Immunology and Infectious Diseases<\/em>\u00a02011<\/strong>,\u00a034<\/em>, 115-121.<\/li>
  111. Thoma, A.; Dahal, A.; Regmi, A.; Valencia, A.; Viner, V.; Cueto, R.; Baker, B.; Bunton, P.; Pojman, J. A. “EPR Measurement of Trapped Radical Concentrations in Frontally-Polymerized and Bulk-Polymerized Multifunctional (Meth)Acrylates,”\u00a0J. Polym. Sci. Part A: Polym. Chem.<\/em>\u00a02011<\/strong>,\u00a049<\/em>, 4261\u20134266.<\/li>
  112. Pojman Sr., J. A.; Pojman Jr., J. A.; Fontenot Jr., C. L. “Comparison of Immobilization Methods for PIT Tagging Three-Toed Amphiuma\u00a0(Amphiuma Tridactylum<\/em>),” Herp. Rev.\u00a02011<\/strong>,\u00a042<\/em>\u00a0362-363.PDF<\/a><\/li>
  113. Viner, V.; Pojman, J. A. “Effects of Thiols, Lithium Chloride, and Ethoxylated Monomers on the Frontal Polymerization of a Triacrylate,”\u00a0J. Polym. Sci. Part A: Polym. Chem.<\/em>\u00a02011<\/strong>,\u00a049<\/em>, 4556\u20134561.<\/li>
  114. Liu, H.; Pojman, J. A.; Zhao, Y.; Pan, C.;Zzheng, J.; Yuan, L.; Horv\u00e1th, A. K.; Gao, Q. “Pattern Formation in the Iodate-Sulfite-Thiosulfate Reaction-Diffusion System,”\u00a0Phys. Chem. Chem. Phy<\/em>s.\u00a02012<\/strong>,\u00a014<\/em>, 131-137.<\/li>
  115. Bounds, C. O.; Goetter, R.; Pojman, J. A.; Vandersall, M. “Preparation and Application of Microparticles Prepared Via the Primary Amine-Catalyzed Michael Addition of a Trithiol to a Triacrylate,” J. Polym. Sci. Part A: Polym. Chem.\u00a02012<\/strong>,\u00a050<\/em>, 409\u2013422.<\/li>
  116. Riolfo, L. A.; Carballido-Landeira, J.; Bounds, C. O.; Pojman, J. A.; Kalliadasis, S.; De\u00a0Wit, A. “Experimental Reaction-Driven Liquid Film Fingering Instability,”\u00a0Chem. Phys. Ltts<\/em>\u00a02012<\/strong>,\u00a0534<\/em>, 13-18.<\/li>
  117. Parrinello, C. A.; Bounds, C. O.; Liveri, M. L. T.; Pojman, J. A. “Thermal Frontal Polymerization with a Thermally Released Redox Catalyst,”\u00a0J. Polym. Sci. Part A: Polym. Chem.<\/em>\u00a02012<\/strong>,\u00a050<\/em>, 2337-2343.<\/li>
  118. Wrobel, M. M.; B\u00e1ns\u00e1gi\u00a0Jr., T.; Scott, S. K.; Taylor, A. F.; Bounds, C. O.; Carranzo, A.; Pojman, J. A. “pH Wave-Front Propagation in the Urea-Urease Reaction,”\u00a0Biophysical J.\u00a0<\/em>2012<\/strong>,\u00a0103,<\/em>\u00a0610\u2013615.<\/li>
  119. Mota-Morales, J. D.; Guti\u00e9rrez, M. C.; Ferrer, M. L.; Sanchez, I. C.; Elizalde-Pe\u00f1a, E. A.; Pojman, J. A.; Monte, F. D.; Luna-B\u00e1rcenas, G. “Deep Eutectic Solvents as Both Active Fillers and Monomers for Frontal Polymerization,”\u00a0J. Polym. Sci. Part A: Polym. Chem.<\/em>\u00a02013<\/strong>,\u00a051<\/em>, 1767\u20131773.<\/li>
  120. Bounds, C. O.; Upadhyay, J.; Totaro, N.; Thakuri, S.; Garber, L.; Vincent, M.; Huang, Z.; Pojman, J. A. “Fabrication and Characterization of Stable Hydrophilic Microfluidic Devices Prepared Via the in Situ Tertiary-Amine Catalyzed Michael Addition of Multifunctional Thiols to Multifunctional Acrylates,”\u00a0ACS Appl. Mater. Interfaces,\u00a0<\/em>2013<\/strong>,\u00a05<\/em>, 1643\u20131655.<\/li>
  121. Morales, A.; Pojman, J. A. “A Study of the Effects of Thiols on the Frontal Polymerization and Pot Life of Multifunctional Acrylate Systems Initiated by Cumene Hydroperoxide,”\u00a0J. Polym. Sci. Part A: Polym. Chem.<\/em>\u00a02013<\/strong>,\u00a051<\/em>, 3850-3855.<\/li>
  122. Garber, L.; Chen, C.; Kilchrist, K. V.; Bounds, C.; Pojman, J.; Hayes, D. “Thiol-Acrylate Nanocomposite Foams for Critical Size Bone Defect Repair: A Novel Biomaterial,”\u00a0J. Biomed. Mater. Res. Part A<\/em>\u00a02013<\/strong>,\u00a0101A<\/em>, 3531-3541.<\/li>
  123. Higham, A.; Garber, L.; Latshaw, D.; Hall, C.; Pojman, J.; Khan, S. “Gelation and Crosslinking in Multi-Functional Thiol and Multi-Functional Acrylate Systems Involving an in Situ Comonomer Catalyst,”\u00a0Macromolecules<\/em>\u00a02014<\/strong>,\u00a047<\/em>, 821-829.<\/li>
  124. Scognamillo, S.; Bounds, C.; Thakuri, S.; Mariani, A.; Wu, Q.; Pojman, J. A. “Frontal Cationic Curing of Epoxy Resins in the Presence of Defoaming or Expanding Compounds,”\u00a0J. Appl. Polym. Sci.<\/em>\u00a02014<\/strong>,\u00a0131<\/em>, 40339-40349.<\/li>
  125. Pojman\u00a0Sr., J. A.; Pojman\u00a0Jr., J. A.; Fontenot\u00a0Jr., C. L. “Use of Clove Oil as an Anesthetic for Pit Tagging and Surgery with the Three-Toed Amphiuma (Amphiuma Tridactylum) and Determination of Recovery Time as a Function of Body Mass,”\u00a0Herp. Rev.<\/em>\u00a02014<\/strong>,\u00a045<\/em>, 25-27.<\/li>
  126. Carranzo, A.; Gewin, M.; Pojman, J. A. \u201cEuropium-doped aluminum oxide phosphors as indicators for frontal polymerization dynamics,\u201d\u00a0Chaos<\/em>,\u00a02014<\/strong>,\u00a02<\/em>, 023118.<\/li>
  127. Smoak; Garber, L.; Chen, C.; Hayes, D.; Pojman, J. A. “Antimicrobial Cytocompatible Pentaerythritol Triacrylate-Co-Trimethylolpropane Composite Scaffolds for Orthopaedic Implants,”\u00a0J. Appl. Poly. Sci<\/em>.\u00a02014<\/strong>,\u00a0131<\/em>, 41099.<\/li>
  128. Carranza, A.; Pojman, J. A.; Mota-Morales, J. D. “Deep-Eutectic Solvents as a Support in the Nonaqueous Synthesis of Macroporous Poly(HIPEs),”\u00a0RSC Advances\u00a0<\/em>2014<\/strong>,\u00a04,\u00a0<\/em>41584-41587<\/li>
  129. Sanchez-Leija, R. J.; Pojman, J. A.; Luna-Barcenas, G.; Mota-Morales, J. D. “Controlled Release of Lidocaine Hydrochloride from Polymerized Drug-Based Deep-Eutectic Solvents,”\u00a0J. Mater. Chem. B<\/em>\u00a02014<\/strong>,\u00a02<\/em>, 7495-7501.<\/li>
  130. Bunton, P.; Dice, B.; Pojman, J. A.; De Wit, A.; Brau, F. “Reconstruction by Fluorescence Imaging of the Spatio-Temporal Evolution of the Viscosity Field in Hele-Shaw Flows,”\u00a0Physics of Fluids (1994-present)\u00a0<\/em>2014<\/strong>,\u00a026,\u00a0<\/em>114106.<\/em><\/li>
  131. Chen, C.; Garber, L.; Smoak, M.; Fargason, C.; Scherr, T.; Blackburn, C.; Bacchus, S.; Lopez, M. J.; Pojman, J. A.; Del\u00a0Piero, F.; Hayes, D. J. “In Vitro and in Vivo Characterization of Pentaerythritol Triacrylate-Co-Trimethylolpropane Nanocomposite Scaffolds as Potential Bone Augments and Grafts,”\u00a0Tissue Engineering Part A\u00a0<\/em>2015<\/strong>, 21, 320-33<\/em>.<\/li>
  132. Nuvoli, D.; Alzari, V.; Pojman, J.; Sanna, V.; Ruiu, A.; Sanna, D.; Malucelli, G.; Mariani, A. “Synthesis and Characterization of Functionally Gradient Materials Obtained by Frontal Polymerization,”\u00a0ACS Appl. Mater. Interface<\/em>s\u00a02015<\/strong>,\u00a07<\/em>, 3600\u22123606.<\/li>
  133. Perez-Garcia, M. G.; Carranza, A.; Puig, J. E.; Pojman, J. A.; del Monte, F.; Luna-Barcenas, G.; Mota-Morales, J. D. “Porous Monoliths Synthesized Via Polymerization of Styrene and Divinyl Benzene in Nonaqueous Deep-Eutectic Solvent-Based Hipes,”\u00a0RSC Adv.<\/em>\u00a02015<\/strong>,\u00a05<\/em>, 23255-23260.<\/li>
  134. Lian, H.; Hong, S.; Carranza, A.; Mota-Morales, J. D.; Pojman, J. A. “Processing of Lignin in Urea-Zinc Chloride Deep-Eutectic Solvent and Its Use as a Filler in a Phenol-Formaldehyde Resin,”\u00a0RSC Adv.<\/em>\u00a02015<\/strong>,\u00a05<\/em>, 28778-28785.<\/li>
  135. McFarland, B.; Pojman, J. A. “Effects of Shell Crosslinking on Polyurea Microcapsules Containing a Free-Radical Initiator,”\u00a0J. Appl. Polym Sci\u00a0<\/em>2015<\/strong>, 132, 42408.<\/li>
  136. Kiss, I. Z.; Pojman, J. A. “Introduction to Focus Issue: Oscillations and Dynamic Instabilities in Chemical Systems: Dedicated to Irving R. Epstein on Occasion of His 70th Birthday,”\u00a0Chaos<\/em>\u00a02015<\/strong>,\u00a025<\/em>, 064201.<\/li>
  137. Zhang, W.; Tullier, M. P.; Patel, K.; Carranza, A.; Pojman, J. A.; Radadia, A. D. “Microfluidics Using a Thiol-Acrylate Resin for Fluorescence-Based Pathogen Detection Assays,”\u00a0Lab Chip<\/em>\u00a02015<\/strong>,\u00a015<\/em>, 4227-4231.<\/li>
  138. Jee, E.; B\u00e1ns\u00e1gi, T.; Taylor, A. F.; Pojman, J. A. “Temporal Control of Gelation and Polymerization Fronts Driven by an Autocatalytic Enzyme Reaction,”\u00a0Angew. Chem.<\/em>\u00a02016<\/strong>,\u00a0128<\/em>, 2167-2171.<\/li>
  139. Abedin, R.; Pojman, J. A.; Knopf, F. C.; Rice, R. G. “Suspended Droplet Polymerization in an Unstable, Vibrating Shallow-Bed Reactor,”\u00a0Ind. Eng. Chem. Res.<\/em>\u00a02016<\/strong>,\u00a055<\/em>, 2493-2503.<\/li>
  140. Holt, T.; Fazende, K.; Jee, E.; Wu, Q.; Pojman, J. A. “Cure-on-Demand Wood Adhesive Based on the Frontal Polymerization of Acrylates,”\u00a0J. Appl. Polym. Sci<\/em>.\u00a02016<\/strong>,\u00a0133<\/em>, 44064.<\/li>
  141. Ramirez-Wong, D. G.; Ramirez-Cardona, M.; Sanchez-Leija, R. J.; Rugerio, A.; Mauricio-Sanchez, R. A.; Hernandez-Landaverde, M. A.; Carranza, A.; Pojman, J. A.; Garay-Tapia, A. M.; Prokhorov, E.; Mota-Morales, J. D.; Luna-Barcenas, G. “Sustainable-Solvent-Induced Polymorphism in Chitin Films,”\u00a0Green Chemistry\u00a0<\/em>2016<\/strong>,\u00a018,\u00a0<\/em>4303-4311.<\/li>
  142. Totaro, N. P.; Murphy, Z. D.; Burcham, A. E.; King, C. T.; Scherr, T. F.; Bounds, C. O.; Dasa, V.; Pojman, J. A.; Hayes, D. J. “In Vitro Evaluation of Thermal Frontally Polymerized Thiol-Ene Composites as Bone Augments,”\u00a0J. Biomed. Mater. Res. Part A: Appl. Biomater.\u00a0<\/em>2016,\u00a0<\/strong>104,\u00a0<\/em>1152\u20131160.<\/li>
  143. Renato Lombardo, Ilaria Calabrese, Giulia Gelardi, Maria Liria Turco Liveri & John A. Pojman ” The apparently anomalous effects of surfactants on interfacial tension in the IBA\/water system near its upper critical solution temperature ,”\u00a0Colloid and Polymer Science,<\/em>\u00a02016<\/strong>,<\/em>\u00a0294<\/em>,<\/strong>\u00a01425-1430.<\/li>
  144. Fontenot\u00a0Jr., C. L.; Pojman, J. A. “Self and Conspecific Dermatophagy in the Aquatic Salamander Amphiuma Tridactylum,”\u00a0Southeaster Naturalist<\/em>\u00a02016<\/strong>,\u00a015<\/em>, N40-N43.<\/li>
  145. Carranza, A.; Song, K.; Soltero-Martinez, J. F. A.; Wu, Q.; Pojman, J. A.; Mota-Morales, J. D. “On the Stability and Chemorheology of a Urea Choline Chloride Deep-Eutectic Solvent as an Internal Phase in Acrylic High Internal Phase Emulsions,”\u00a0RSC Adv.<\/em>\u00a02016<\/strong>,\u00a06<\/em>, 81694-81702.<\/li>
  146. Hong, S.; Lian, H.; Sun, X.; Pan, D.; Carranza, A.; Pojman, J. A.; Mota-Morales, J. D. “Zinc-Based Deep Eutectic Solvent-Mediated Hydroxylation and Demethoxylation of Lignin for the Production of Wood Adhesive,”\u00a0RSC Adv<\/em>.\u00a02016<\/strong>,\u00a06<\/em>, 89599-89608.<\/li>
  147. Carranza, A.; P\u00e9rez-Garc\u00eda, M. G.; Song, K.; Jeha, G. M.; Diao, Z.; Jin, R.; Bogdanchikova, N.; Soltero, A. F.; Terrones, M.; Wu, Q.; Pojman, J. A.; Mota-Morales, J. D. “Deep-Eutectic Solvents as MWCNT\u00a0<\/strong>Delivery Vehicles in the Synthesis of Functional Poly(HIPE) Nanocomposites for Applications as Selective Sorbents,”\u00a0ACS Appl. Mater. Interfaces\u00a0<\/em>2016<\/strong>,\u00a08,\u00a0<\/em>31295-31303.<\/li>
  148. Carranza, A.; Romero-Perez, D.; Almanza-Reyes, H.; Bogdanchikova, N.; Juarez-Moreno, K.; Pojman, J. A.; Velasquillo, C.; Mota-Morales, J. D. “Nonaqueous Synthesis of Macroporous Nanocomposites Using High Internal Phase Emulsion Stabilized by Nanohydroxyapatite,”\u00a0Advanced Materials Interfaces\u00a0<\/em>2017<\/strong>, 1700094-n\/a.<\/li>
  149. Tullier, M. P.; Pojman, J. A. “Cure-on-Demand Acrylamide Grout Using Frontal Polymerization,”\u00a0J. Mater. Civ. Eng.<\/em>\u00a02017<\/strong>,\u00a029<\/em>, 06017014.<\/li>
  150. Kondepudi, D.; Petrosky, T.; Pojman, J. A. “Dissipative Structures and Irreversibility in Nature: Celebrating 100th Birth Anniversary of Ilya Prigogine (1917\u20132003),”\u00a0Chaos<\/em>\u00a02017<\/strong>,\u00a027<\/em>, 104501.<\/li>
  151. Viner, G.; Monica, T. L.; Lombardo, R.; Pojman, J. A. “Effect of Pseudo-Gravitational Acceleration on the Dissolution Rate of Miscible Drops ”\u00a0Chaos<\/em>\u00a02017<\/strong>,\u00a027<\/em>, 104603.<\/li>
  152. Bunton, P. H.; Tullier, M. P.; Meiburg, E.; Pojman, J. A. “The Effect of a Crosslinking Chemical Reaction on Pattern Formation in Viscous Fingering of Miscible Fluids in a Hele-Shaw Cell,”\u00a0Chaos<\/em>\u00a02017<\/strong>,\u00a027<\/em>, 104614.<\/li>
  153. Cui, Y.; Li, M.-C.; Wu, Q.; Pojman, J. A.; Kuroda, D. G. “Synthesis-Free Phase-Selective Gelator for Oil-Spill Remediation,”\u00a0ACS Appl. Mater. Interfaces\u00a0<\/em>2017<\/strong>,\u00a09,\u00a0<\/em>33549-33553.<\/li>
  154. Fazende, K. F.; Phachansitthi, M.; Mota-Morales, J. D.; Pojman, J. A. “Frontal Polymerization of Deep Eutectic Solvents Composed of Acrylic and Methacrylic Acids,”\u00a0J. Polym. Sci. A Polym. Chem.<\/em>\u00a02017<\/strong>,\u00a055<\/em>, 4046-4050.<\/li>
  155. Mota-Morales, J. D.; S\u00e1nchez-Leija, R. J.; Carranza, A.; Pojman, J. A.; del Monte, F.; Luna-B\u00e1rcenas, G. “Free-Radical Polymerizations of and in Deep Eutectic Solvents: Green Synthesis of Functional Materials,”\u00a0Progress in Polymer Science\u00a0<\/em>2018<\/strong>,\u00a078<\/em>, 139-153.<\/li>
  156. Stewart, S.; Marin, D.; Tullier, M.; Pojman, J.; Meiburg, E.; Bunton, P. “Stabilization of Miscible Viscous Fingering by a Step Growth Polymerization Reaction,”\u00a0Experiments in Fluids<\/em>\u00a02018<\/strong>,\u00a059<\/em>, 114.<\/li>
  157. Pereira, K. E.; Crother, B. I.; Sever, D. M.; Fontenot, C. L.; Pojman, J. A.; Wilburn, D. B.; Woodley, S. K. “Skin Glands of an Aquatic Salamander Vary in Size and Distribution and Release Antimicrobial Secretions Effective against Chytrid Fungal Pathogens,”\u00a0The Journal of Experimental Biology\u00a0<\/em>2018<\/strong>,\u00a0221,\u00a0<\/em>jeb183707.<\/em><\/li>
  158. Anoosha, F.; Leah, G.; Cong, C.; Fariborz, T.; Timothy, B. T.; Ram, D.; John, A. P.; Daniel, H. “Fabrication and Characterization of Thiol-Triacrylate Polymer Via Michael Addition Reaction for Biomedical Applications,”\u00a0Biomedical Materials<\/em>\u00a02019<\/strong>,\u00a014<\/em>, 015001.<\/li>
  159. Yang, D.; \u00a0Fan, J.; Cao, F.; Deng, Z.; Pojman, J. A.; Ji, L. \u201cImmobilization adjusted clock reaction in the urea\u2013urease\u2013H+ reaction system,\u201d\u00a0RSC Adv<\/em>.,\u00a02019<\/strong>,\u00a09<\/em>, 3514.<\/li>
  160. Markovic, V. M.; B\u00e1ns\u00e1gi Jr., T.; McKenzie, D.; Mai, A.; Pojman, J. A.; Taylor, A. F. “Influence of Reaction-Induced Convection on Quorum Sensing in Enzyme-Loaded Agarose Beads,”<\/span>\u00a0<\/span>Chaos: An Interdisciplinary Journal of Nonlinear Science\u00a0<\/i>2019<\/b>,<\/span>\u00a0<\/span>29,\u00a0<\/i>033130.<\/span><\/li>
  161. \u00a0<\/span><\/span>Hong, S.; Sun, X.; Lian, H.; Pojman, J. A.; Mota-Morales, J. D. “Zinc Chloride\/Acetamide Deep Eutectic Solvent-Mediated Fractionation of Lignin Produces High- and Low-Molecular-Weight Fillers for Phenol-Formaldehyde Resins,”\u00a0Journal of Applied Polymer Science\u00a0<\/i>2019<\/b>,\u00a0doi.org\/10.1002\/app.48385,\u00a0<\/i>48385.<\/span><\/li>
  162. \u00a0<\/span><\/span>Bynum, S.; Tullier, M.; Morejon-Garcia, C.; Guidry, J.; Runnoe, E.; Pojman, J. A. “The Effect of Acrylate Functionality on Frontal Polymerization Velocity and Temperature,”\u00a0Journal of Polymer Science Part A: Polymer Chemistry\u00a0<\/i>2019<\/b>,\u00a057,\u00a0<\/i>982-988.<\/span><\/li>
  163. \u00a0<\/span><\/span>Pojman, J. A. “Mathematical Modeling of Frontal Polymerization,”\u00a0Math. Model. Nat. Phenom.\u00a0<\/i>2019<\/b>,\u00a014,\u00a0<\/i>604.<\/span><\/li>
  164. \u00a0<\/span><\/span>Khan, A. H.; Cook, J. K.; Wortmann III, W. J.; Kersker, N. D.; Rao, A.; Pojman, J. A.; Melvin, A. T. “Synthesis and Characterization of Thiol-Acrylate Hydrogels Using a Base-Catalyzed Michael Addition for 3D Cell Culture Applications,”\u00a0Journal of Biomedical Materials Research Part B: Applied Biomaterials\u00a0<\/i>2020<\/b>, 108B,\u00a0<\/i>2294\u20132307.<\/span><\/li>
  165. \u00a0<\/span><\/span>Bansal, K.; Pojman, J. A.; Webster, D.; Quadir, M. “Frontal Polymerization of a Thin Film on a Wood Substrate,”\u00a0ACS Macro Letters\u00a0<\/i>2020<\/b>,\u00a09,\u00a0<\/i>169-173.<\/span><\/li>
  166. \u00a0<\/span><\/span>Upadhyay, J.; Bounds, C. O.; Totaro, N.; Thakuri, S.; Garber, L.; Vincent, M.; Huang, Z.; Pojman, J. A. “Production and Analysis of Stable Microfluidic Devices with Tunable Surface Hydrophilicity Via the in-Situ Tertiary-Amine Catalyzed Michael Addition of a Multifunctional Thiol to a Multifunctional Acrylate,”\u00a0European Polymer Journal\u00a0<\/i>2020<\/b>,\u00a0126,\u00a0<\/i>109482.<\/span><\/li>
  167. \u00a0<\/span><\/span>Fazende, K. F.; Gary, D. P.; Mota-Morales, J. D.; Pojman, J. A. “Kinetic Studies of Photopolymerization of Monomer-Containing Deep Eutectic Solvents,”\u00a0Macromol. Chem. Phys.\u00a0<\/i>2020<\/b>,\u00a0<\/i>1900511.<\/span><\/li>
  168. \u00a0<\/span><\/span>Gary, D. P.; Bynum, S.; Thompson, B. D.; Groce, B. R.; Sagona, A.; Hoffman, I. M.; Morejon-Garcia, C.; Weber, C.; Pojman, J. A. “Thermal Transport and Chemical Effects of Fillers on Free-Radical Frontal Polymerization,”\u00a0Journal of Polymer Science\u00a0<\/i>2020<\/b>,\u00a058,\u00a0<\/i>2267-2277.<\/span><\/li>
  169. Mai, A. Q.; Davies, J.; Nguyen, D.; Carranza, A.; Vincent, M.; Pojman, J. A. “Microparticles and Latexes Prepared Via Suspension Polymerization of a Biobased Vegetable Oil and Renewable Carboxylic Acid,”<\/span>\u00a0<\/span>J.\u00a0Appl. Polym. Sci<\/i>.\u00a0<\/span>2020<\/b>,<\/span>\u00a0<\/span>138,\u00a0<\/i>e50180.<\/span><\/li>
  170. \u00a0\u00a0<\/span><\/span>Pojman, J. A. “A New Approach to Manufacturing with Frontal Polymerization to Generate Patterned Materials,”\u00a0ACS Cent. Sci.\u00a0<\/i>2021<\/b>,\u00a07,\u00a0<\/i>534\u2212535.<\/span><\/li>
  171. \u00a0<\/span><\/span>Khan, A. H.; Smith, N. M.; Tullier, M. P.; Roberts, B. S.; Englert, D.; Pojman, J. A.; Melvin, A. T. “Development of a Flow-Free Gradient Generator Using a Self-Adhesive Thiol-Acrylate Microfluidic Resin\/Hydrogel (TAMR\/H) Hybrid System,”\u00a0ACS Applied Materials & Interfaces\u00a0<\/i>2021<\/b>,\u00a013,\u00a0<\/i>26735-26747.<\/span><\/li>
  172. Mai, A. Q.; B\u00e1ns\u00e1gi, T.; Taylor, A. F.; Pojman, J. A. “Reaction-Diffusion Hydrogels from Urease Enzyme Particles for Patterned Coatings,”<\/span>\u00a0<\/span>Communications Chemistry\u00a0<\/i>2021<\/b>,<\/span>\u00a0<\/span>4,\u00a0<\/i>101.<\/span><\/li>
  173. \u00a0<\/span><\/span>Groce, B. R.; Gary, D. P.; Cantrell, J. K.; Pojman, J. A. “Front Velocity Dependence on Vinyl Ether and Initiator Concentration in Radical-Induced Cationic Frontal Polymerization of Epoxies,”\u00a0J .Polym. Sci.\u00a02021<\/b>,\u00a01.\u00a0https:\/\/doi.org\/10.1002\/pol.20210183<\/a>.<\/i><\/span><\/li>
  174. Gao, Y.; Shaon, F.; Kumar, A.; Bynum, S.; Gary, D.; Sharp, D.; Pojman, J. A.; Geubelle, P. H. “Rapid Frontal Polymerization Achieved with Thermally Conductive Metal Strips,”<\/span>\u00a0<\/span>Chaos: An Interdisciplinary Journal of Nonlinear Science\u00a0<\/i>2021<\/b>,<\/span>\u00a0<\/span>31,\u00a0<\/i>073113.<\/span><\/li>
  175. Gao, Y.; Li, S.; Kim, J.-Y.; Hoffman, I.; Vyas, S. K.; Pojman, J. A.; Geubelle, P. H. “Anisotropic Frontal Polymerization in a Model Resin\u2013Copper Composite,” Chaos: An Interdisciplinary Journal of Nonlinear Science <\/em>2022<\/strong>, 32,<\/em><\/li>
  176. Pojman, J. A. Cure-on-Demand Composites by Frontal Polymerization: in Reference Module in Materials Science and Materials Engineering<\/em>; Ed.; Elsevier: 2022; pp 1-17. https:\/\/doi.org\/10.1016\/B978-0-12-820352-1.00201-7<\/a><\/li>
  177. Gary, D. P.; Ngo, D.; Bui, A.; Pojman, J. A. “Charge Transfer Complexes as Dual Thermal\/Photo Initiators for Free\u2010Radical Frontal Polymerization,” Polym. Sci. <\/em>2022<\/strong>, 60(10), <\/em>1624-1630.<\/li>
  178. Tiani, R.; Pojman, J. A.; Rongy, L. “Critical Role of Layer Thickness in Frontal Polymerization,” Phys. Chem. B <\/em>2022<\/strong>, 126, <\/em>3607\u22123618.<\/li>
  179. Gary, D. P.; Ngo, D.; Bui, A.; Belgodere, J. A.; Pojman, J. A. “Cure-on-Demand Ultra-High Solid Non-Skid Coatings through Frontal Polymerization,” CoatingsTech <\/em>2023<\/strong>, Jan-Feb, <\/em>34-44.<\/li>
  180. Suslick, B. A.; Hemmer, J.; Groce, B. R.; Stawiasz, K. J.; Geubelle, P. H.; Malucelli, G.; Mariani, A.; Moore, J. S.; Pojman, J. A.; Sottos, N. R. “Frontal Polymerizations: From Chemical Perspectives to Macroscopic Properties and Applications,” Chemical Reviews <\/em>2023<\/strong>, 123, <\/em>3237-3298.

    doi.org\/10.1021\/acs.chemrev.2c00686<\/a><\/p><\/li>

  181. Groce, B. R.; Lane, E. E.; Gary, D. P.; Ngo, D. T.; Ngo, D. T.; Shaon, F.; Belgodere, J. A.; Pojman, J. A. “Kinetic and Chemical Effects of Clays and Other Fillers in the Preparation of Epoxy\u2013Vinyl Ether Composites Using Radical-Induced Cationic Frontal Polymerization,” ACS Applied Materials & Interfaces <\/em>2023<\/strong>, 15, <\/em>19403-19413.

    https:\/\/pubs.acs.org\/doi\/abs\/10.1021\/acsami.3c00187<\/a><\/p><\/li>

  182. Groce, B. R.; Ferguson, M. M.; Pojman, J. A. “Thermally Initiated Cationic Frontal Polymerization of Epoxies and Vinyl Ethers through a Lone Onium Salt,” <\/span> Polym. Sci. <\/em>2023<\/strong>, <\/span>61, <\/em>3149\u20133158.<\/span><\/p>

    https:\/\/doi.org\/10.1002\/pol.20230506<\/a><\/p><\/li>

  183. Groce, B. R.; Aucoin, A. V.; Ullah, M. A.; DiCesare, J.; Wingfield, C.; Sardin, J.; Harris, J. T.; Nguyen, J. C.; Raley, P.; Stanley, S. S.; Palardy, G.; Pojman, J. A. “Free-Standing 3d Printing of Epoxy-Vinyl Ether Structures Using Radical-Induced Cationic Frontal Polymerization,” ACS Applied Polymer Materials <\/em>2024<\/strong>, 6<\/em>, 572\u2013582.

    https:\/\/doi.org\/10.1021\/acsapm.3c02226<\/a><\/p><\/li>

  184. Bashir, N.; Leathard, A. S.; McHugh, M.; Hoffman, I.; Shaon, F.; Belgodere, J. A.; Taylor, A. F.; Pojman, J. A. “On the Use of Modelling Antagonistic Enzymes to Aid in Temporal Programming of Ph and Pva\u2013Borate Gelation,” Syst. Des. Eng. <\/em>2024<\/strong>, Mol. Syst. Des. Eng. <\/em>2024<\/strong>, 9, <\/em>372-381.

    https:\/\/pubs.rsc.org\/en\/content\/articlelanding\/2024\/me\/d3me00138e<\/p><\/li>

  185. Gary, D. P.; Al Mahmud, M. A.; Dawson, M. G.; Pojman, J. A. “Gas-Free Initiation for Free-Radical Frontal Polymerization through Charge Transfer Complexes,” J. Polym. Sci. <\/i>2024<\/b>, 62(18), <\/i>4148. https:\/\/doi.org\/10.1002\/pol.20240335<\/p><\/li>

  186. Adrewie, D.; Rocha, M.; Fuller, M.; Pojman, J. A. “Thiol-Acrylate Gel Systems for Frontal Polymerization,” Journal of Polymer Science <\/i>2025<\/b>, 63, <\/i>299-306.https:\/\/doi.org\/10.1002\/pol.20240800<\/p><\/li>

  187. Martinez, M.; Bansal, K.; Pojman, J. A.; Quadir, M. “Frontal Polymerization of Phytic Acid Containing Hexaacrylate, Triacrylate, and Fillers,” Journal of Applied Polymer Science <\/em>2025<\/strong>, 142, e56561.<\/em><\/p>

    https:\/\/doi.org\/10.1002\/app.56561<\/a><\/p><\/li>

  188. Tiani, R.; Pojman, J. A.; Rongy, L. “Frontal Polymerization in Thin Layers: Hydrodynamic Effects and Asymptotic Dynamics,” The Journal of Chemical Physics <\/em>2025<\/strong>, 162, <\/em><\/p>

    https:\/\/doi.org\/10.1063\/5.0252137<\/a><\/p><\/li>

  189. Mahmud, M. A. A.; Pojman, J. A. “A Novel Approach to Cure-on-Demand Coatings Using Ammonia to Catalyze Thiol-Acrylate and Thiol-Epoxy Reactions,” <\/span>ACS Omega <\/em>2025<\/strong>, <\/span>10, <\/em>20417-20426.<\/span>
    https:\/\/doi.org\/10.1021\/acsomega.5c00523<\/p><\/li>

  190. Al Mahmud, M. A.; Aucoin, A. V.; Pojman, J. A. “Bubble\u2010Free Frontal Polymerization of Acrylates Using 1,1,2,2\u2010Tetraphenyl\u20101,2\u2010Ethanediol as a Free\u2010Radical Initiator,” Journal of Polymer Science <\/em>2025<\/strong>, 63, <\/em>2853-2861.<\/p>https:\/\/doi.org\/10.1002\/pol.20250433<\/a><\/li>

  191. Ortega Quesada, B. A.; Khan, A. H.; Zhou, S. P.; Moe, M.; Chen, J.; Martin, E. C.; Pojman, J. A.; Melvin, A. T. “A Droplet Microfluidic Approach to Investigate How Fibroblasts Alter Collagen I Spatial Distribution and Endocrine Response in Er+ Breast Cancer,” <\/span>ACS Biomaterials Science & Engineering <\/em>2025<\/strong>, <\/span>11,<\/em> 7523\u20137535.<\/span>
    https:\/\/pubs.acs.org\/doi\/10.1021\/acsbiomaterials.5c01025<\/p><\/li><\/ol>

    Books<\/h2>

    Epstein, I. R.; Pojman, J. A.\u00a0An Introduction to Nonlinear Chemical Dynamics:\u00a0 Oscillations, Waves, Patterns and Chaos<\/em>; Oxford University Press: New York, 1998.<\/p>

    Downey, J. P.; Pojman, J. A. (editors)\u00a0Polymer Research<\/em>\u00a0in Microgravity: Polymerization and Polymer Processing<\/em>, ACS Symposium Series No. 793, American Chemical Society:\u00a0 Washington, D.C, 2002.<\/p>

    Pojman, J. A.; Tran-Cong-Miyata, Q. (editors)\u00a0Nonlinear Dynamics in Polymeric Systems<\/em>,\u00a0ACS Symposium Series No.<\/em>\u00a0869,\u00a0American Chemical Society: Washington, DC, 2003<\/p>

    Pojman, J. A.; Tran-Cong-Miyata. Q. (editors)\u00a0Nonlinear Dynamics with Polymers: Fundamentals, Methods and Applications<\/em>, WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim, 2010.<\/p>

    Book Chapters<\/strong><\/p>

      1. Volpert, V. A.; Volpert, V. A.; Garbey, M.; Pojman, J. A. Stability of Reaction Fronts: in\u00a0Gas-Phase Chemical Reaction Systems: Experiments and Models 100 Years after Max Bodenstein<\/em>; Wolfrum, J.; Volpp, H.-R.; Rannacher, R. Warnatz, J., Ed.;\u00a0 Springer Berlin:\u00a0 Heidelberg,\u00a01996<\/strong>; pp 309-317.<\/li>
      2. Fortenberry, D. I.; Khan, A.; Ilyashenko, V. M.; Pojman, J. A. Frontal Polymerization:\u00a0 Self-Propagating High Temperature Synthesis of Polymeric Materials: in\u00a0Synthesis and Characterization of Advanced Materials, ACS Symposium Series No. 681<\/em>; Serio, M. A.; Gruen, D. M. Malhotra, R., Ed.;\u00a0 American Chemical Society:\u00a0 Washington, DC, 1998; pp 220-235.<\/li>
      3. Pojman, J. A.; Fortenberry, D.; Lewis, L. L.; Simmons, C.; Ilyashenko, V. Solvent-Free Synthesis by Free-Radical Frontal Polymerization: in\u00a0Solvent-Free Polymerizations and Processes, ACS Symposium Series No. 713<\/em>; Long, T. E. Hunt, M. O., Ed.;\u00a0 American Chemical Society:\u00a0 Washington, D.C., 1998; pp 140-153<\/li>
      4. Pojman, J. A. “Self Organization in Synthetic Polymeric Systems,”\u00a0Annals New York Acad. Sci.\u00a0<\/em>1999<\/strong>,\u00a0879,\u00a0<\/em>194-214.<\/li>
      5. Ainsworth, W.; Pojman, J. A.; Chekanov, Y.; Masere, J. Bubble Behavior in Frontal Polymerization:\u00a0 Results from KC-135 Parabolic Flights: in\u00a0Polymer Research in Microgravity:\u00a0 Polymerization and Processing, ACS Symposium Series No. 793<\/em>; Downey, J. P. Pojman, J. A., Ed.;\u00a0 American Chemical Society:\u00a0 Washington, DC, 2001; pp 112-125.<\/li>
      6. Downey, J. P.; Pojman, J. A. Polymer Processing in Microgravity:\u00a0 An Overview: in\u00a0Polymer Research in Microgravity:\u00a0 Polymerization and Processing, ACS Symposium Series No. 793<\/em>; Downey, J. P. Pojman, J. A., Ed.;\u00a0 American Chemical Society:\u00a0 Washington, DC, 2001; pp 2-15.<\/li>
      7. Pojman, J. A.; Volpert, V. A.; Volpert, V. A. “Nonlinear Dynamics of SHS-Like Processes in Polymer Chemistry” in\u00a0Self-Propagating High-Temperature Synthesis of Materials<\/em>; A. A. Borisov, L. T. De Luca., A. G. Merzhanov, Ed.; Taylor and Francis:\u00a0 New York, 2002; pp 99-118.<\/li>
      8. Epstein, I. R.; Pojman, J. A., Tran-Cong-Miyata, Q. Nonlinear Dynamics and Polymeric Systems – An Overview: in\u00a0Nonlinear Dynamics in Polymeric Systems, ACS Symposium Series No.<\/em>\u00a0869;\u00a0 Pojman, J. A.; Tran-Cong-Miyata, Q. Eds.; American Chemical Society: Washington, DC, 2003; pp 2-15.<\/li>
      9. Pojman, J. A.; Popwell, S.; Fortenberry, D. I.; Volpert, Vit. A.; Volpert, Vl. A. Nonlinear Dynamics in Frontal Polymerization: in\u00a0Nonlinear Dynamics in Polymeric Systems, ACS Symposium Series No. 869<\/em>; Pojman, J. A. Tran-Cong-Miyata, Q., Ed.; American Chemical Society: Washington, DC, 2003; pp 106-120.<\/li>
      10. Lewis, L. L.; DeBisschop, C. A.; Pojman, J. A.; Volpert, Vl. A. Evolution of Isothermal Polymerization Fronts via Laser Line Deflection and Predictive Modeling: in\u00a0Nonlinear Dynamics in Polymeric Systems, ACS Symposium Series No. 869<\/em>; Pojman, J. A. Tran-Cong-Miyata, Q., Ed.; American Chemical Society: Washington, DC, 2003; pp 169-185.<\/li>
      11. Pojman, J. A. Polymers: in\u00a0Encyclopedia of\u00a0Nonlinear Science<\/em>; Scott, A., Ed.; Routledge: New York and London, 2004<\/li>
      12. Epstein, I. R.; Pojman, J. A. Ilya Prigogine: in The New Dictionary of Scientific Biography; Koertge, N. Ed. Charles Scribner’s Sons, 2007.<\/li>
      13. Pojman, J. A. Nonliear Chemical Dynamics in Synthetic Polymer Systems: in Chemomechanical Instabilities in Responsive Materials (Nato Science for Peace and Security Series A: Chemistry and Biology); Borckmans, P.; De Kepper, P.; Khokhlov, A. R. M\u00e9tens, S., Ed.; Springer: Dordrecht, 2009; pp 221-240.<\/li>
      14. Pojman, J. A.; Tran-Cong-Miyata, Q. Introduction: in\u00a0Nonlinear Dynamics with Polymers: Fundamentals, Methods and Applications<\/em>; Pojman, J. A. Tran-Cong-Miyata, Q., Ed.; WILEY-VCH Verlag GmbH & Co. KGaA: Weinheim, 2010; pp 1-4.<\/li>
      15. Epstein, I. R.; Pojman, J. A.; Tran-Cong-Miyata, Q. What Is Nonlinear Dynamics and How Does It Relate to Polymers?: in\u00a0Nonlinear Dynamics with Polymers: Fundamentals, Methods and Applications<\/em>; Pojman, J. A. Tran-Cong-Miyata, Q., Ed.; WILEY-VCH Verlag GmbH & Co. KGaA: Weinheim, 2010; pp 5-20.<\/li>
      16. Pojman, J. A. Frontal Polymerization: in\u00a0Nonlinear Dynamics with Polymers: Fundamentals, Methods and Application<\/em>s; Pojman, J. A. Tran-Cong-Miyata, Q., Ed.; WILEY-VCH Verlag GmbH & Co. KGaA: 2010; pp 45-68.<\/li><\/ol><\/li><\/ol>

        Pojman, J. A. Frontal Polymerization: in\u00a0Polymer Science: A Comprehensive Reference<\/em>; Matyjaszewski, K. M\u00f6ller, M., Ed.; Elsevier BV: Amsterdam, 2012; pp 957\u2013980.<\/a>
        <\/span><\/p>

        Preprints and Unrefereed Conference Proceedings<\/strong><\/p>

        1. Pojman, J. A.; Khan, A., M.; West, W. “Traveling Fronts Of Addition Polymerization:\u00a0 A Possible New Method Of Materials Synthesis.,”Polym. Prepr. (Am Chem. Soc. Div. Polym. Chem.)\u00a0<\/em>1992<\/strong>,\u00a033,\u00a0<\/em>1188-1189.<\/li>
        2. Pojman, J. A.; Fortenberry, D.; Jones, C. E.;\u00a0 Khan, A. K.; Walker, J. S.; Willis, J. “Traveling Fronts of Addition Polymerization,” report #153 of Equipe D\u2019 Analyse Numerique Lyon Saint-Etienne, CNRS, France.<\/li>
        3. Pojman, J.; Gill, N.; Willis, J.; Whitehead, J. B. “Polymer Dispersed Liquid Crystal (PDLC) Materials Produced via Frontal Epoxy Curing,”Polym. Mater. Sci. Eng. Prep.\u00a0<\/em>1996<\/strong>,\u00a075,\u00a0<\/em>20-21.<\/li>
        4. Pojman, J. A.; Gunn, G.; Simmons, C. “Frontal Dispersion Polymerization,”Polym. Prepr. (Am Chem. Soc. Div. Polym. Chem.)\u00a0<\/em>1997<\/strong>,\u00a038(2),\u00a0<\/em>351-352.<\/li>
        5. Fortenberry, D.; Pojman, J. A. “Solvent-Free Processing of Solid Monomers Utilizing Frontal Polymerization,”Polym. Prepr. (Am Chem. Soc. Div. Polym. Chem.)\u00a0<\/em>1997<\/strong>,\u00a038(2),\u00a0<\/em>472-473.<\/li>
        6. Pojman, J. A.; Simmons, C.; Ilyashenko, V. “Solvent-Free Synthesis by Free-Radical Frontal Polymerization,”Polym. Prepr. (Am Chem. Soc. Div. Polym. Chem.)\u00a0<\/em>1997<\/strong>,\u00a038(2),\u00a0<\/em>420-421.<\/li>
        7. Pojman, J. A.; Khan, A. M.; Mathias, L. “Frontal Polymerization in Microgravity,”Polym. Prepr. (Am Chem. Soc. Div. Polym. Chem.)\u00a0<\/em>1997<\/strong>,\u00a038(1),\u00a0<\/em>717-718.<\/li>
        8. Lewis, L. L.; Pojman, J. A. “Experimental Investigation of the Mechanism of Isothermal Frontal Polymerization,”Polym. Mater. Sci. Eng. Prep. Div. Polym. Mater. Sci. Eng.\u00a0<\/em>1998<\/strong>,\u00a079,\u00a0<\/em>44-45.<\/li>
        9. Pojman, J. A.; Warren, J. “Frontal Polymerization in Porous Media,”Polym. Prepr. (Am Chem. Soc. Div. Polym. Chem.)\u00a0<\/em>1998<\/strong>,\u00a039,\u00a0<\/em>356-357.<\/li>
        10. Pojman, J. A.; Nichols, H. A.; Volpert, V. “The Effects of Reactor Orientation on Frontal Polymerization,”Polym. Prepr. (Am Chem. Soc. Div. Polym. Chem.)\u00a0<\/em>1998<\/strong>,\u00a039,\u00a0<\/em>463-464.<\/li>
        11. Chekanov, Y.; Pojman, J. A.; Rasmussen, J. K. “Bubble-Free Initiators for High Temperature Free-Radical Polymerization,”Polym. Prepr. (Am Chem. Soc. Div. Polym. Chem.)\u00a0<\/em>1998<\/strong>,\u00a039,\u00a0<\/em>465-467.<\/li>
        12. Pojman, J. A.; Chekanov, Y. A.; Case, C.; McCardle, T. “Functionally-Graded Polymeric Materials Prepared Via Frontal Polymerization,”Polym. Mater. Sci. Eng. Prep. Div. Polym. Mater. Sci. Eng.\u00a0<\/em>1998<\/strong>,\u00a079,\u00a0<\/em>82-83.<\/li>
        13. Masere, J.; Pojman, J. A. “Period-Doubling Behavior in Propagating Polymerization Fronts of Multifunctional Acrylates,”Polym. Mater. Sci. Eng. Prep. Div. Polym. Mater. Sci. Eng.\u00a0<\/em>1998<\/strong>,\u00a079,\u00a0<\/em>80-81.<\/li>
        14. Pojman, J. A.; Griffith, J.; Simmons, C. “Binary Frontal Polymerization and Frontal Copolymerization,”Polym. Prepr. (Am Chem. Soc. Div. Polym. Chem.)\u00a0<\/em>1998<\/strong>,\u00a039,\u00a0<\/em>231-232.<\/li>
        15. Washington, R. P.; Misra, G. P.; Pojman, J. A. “The Redox Polymerization of Acrylonitrile in an Oscillating Reaction,”Polym. Prepr. (Am Chem. Soc. Div. Polym. Chem.)\u00a0<\/em>1998<\/strong>,\u00a039,\u00a0<\/em>237-238.<\/li>
        16. Pojman, J.; Volpert, V.; Dumont, T.; Ainsworth, W.; Chekanov, Y.; Masere, J.; Wilke, H., Bubble Behavior and Convection in Frontal Polymerization on the KC-135 Aircraft, AIAA 2000-0856,38th Aerospace Sciences Meeting,\u00a0<\/em>2000,\u00a0<\/strong>Reno, NV.<\/li>
        17. Pojman, J.; Volpert, V.; Dumont, T.; Ainsworth, W.; Chekanov, Y.; Masere, J.; Wilke, H., “Frontal Polymerization in Microgravity:\u00a0 Bubble Behavior and Convection on the KC-135 Aircraft,” NASA\u2019s Microgravity Materials Science Meeting,\u00a0 Huntsville, AL, June 6-8, 2000.<\/li>
        18. “Effective Interfacial Tension Induced Convection (EITIC) in Miscible Fluids”, John A. Pojman,\u00a0<\/strong>Yuri Chekanov, Jonathan Masere, Vitaly Volpert, Thierry Dumont, and Hermann Wilke,<\/sub>\u00a0AIAA Aerospace Sciences Meeting, AIAA-2001-0764, January 8-10, 2001, Reno, NV.\u00a0\u00a0Recipient of Best Paper Award<\/strong><\/li>
        19. Budzinski, K., Carter, N., Leard, K., Watters, C., Zoltowski, B. and Pojman, J. A. “Down to Earth” Microgravity Experiments:\u00a0\u00a0 Classroom Demonstrations of Microgravity Research,”\u00a0AIAA-2002-1114\u00a0presented at the 40th AIAA Aerospace Sciences Meeting and Exhibit, 14-17, Reno, Nevada, January 2002.<\/li>
        20. Bessonov, N., Texier-Picard, R., Volpert, V., Wilke, H., and Pojman, J. A. “Numerical simulations of transient interfacial phenomena in miscible fluids,”\u00a0<\/sup>AIAA-2002-0892 presented at the 40th AIAA Aerospace Sciences Meeting and Exhibit, 14-17, Reno, Nevada, January 2002.<\/li>
        21. Wilke, H. and Pojman, J. A\u00a0 “Coupling Between Buoyancy and Marangoni Convection in a Two-Fluid System Under Reduced Gravity: A Numerical Study,” AIAA-2002-0756\u00a0presented at the 40th AIAA Aerospace Sciences Meeting and Exhibit, 14-17, Reno, Nevada, January 2002.<\/li>
        22. Lewis, L. L. and Pojman, J. A.\u00a0 “Use of Laser Line Deflection and Shadowgraphy as Non-Invasive Monitoring Techniques for Isothermal Frontal Polymerization of Methyl Methacrylate Systems,” Proc. ACS Poly. Mat. Sci and Eng. 86(1), 161 (2002).<\/li>
        23. Fortenberry, D. I; Pojman, J. A Spherically-Propagating Frontal Polymerization, Polym. Prep. 43(2), 825-826 (2002)<\/li>
        24. Volpert, Vit. and Pojman, J. A. “Convective Instabilities In Frontal Polymerization,” Polym. Prep. 43(2), 816-817 (2002)<\/li>
        25. Lewis, L. L., DeBisschop, C., Pojman, J. A., Volpert, Vl. “Evolution of isothermal polymerization fronts via laser line deflection and predictive modeling,”\u00a0Polym. Prep. 43(2), 821-822 (2002)<\/li>
        26. Pojman, J. A., Bessonov, N., Texier-Picard, R., Volpert, V., and Wilke, H. “Effective interfacial tension in miscible polymers systems: A possible new source of instabilities,” Polym. Prep. 43(2), 854-855 (2002<\/strong>)<\/li>
        27. McFarland, B. H., Pojman, J. A. “Controlled Initiation of Polymerization Reactions using Microencapsulation Techniques,” Polym. Prep. 43(2), 854-855 (2002<\/strong>)<\/li>
        28. “Investigation of the Intensity and Pattern of Plasma Movement in an Inert Gas Dischage Tube,” Kayce Leard, Brian Zoltowski, Nicholas Carter, Kristi Budzinski, Christina Watters, Shelly Gallendar, Janette Dill, William J. Ainsworth, John A. Pojman, AIAA-2003-0821,\u00a0 41st AIAA Aerospace Sciences Meeting and Exhibit, 6-9 January\u00a02003<\/strong>, Reno, NV.<\/li>
        29. “Numerical Simulations of Transient Interfacial Phenomena in Miscible Polymer Systems,”\u00a0Nick Bessonov, John A. Pojman*<\/strong><\/a>, and Vitaly Volpert, Brian\u00a0<\/strong>Zoltowski, AIAA-2003-1157, Microgravity Science and Space Processing, 41st AIAA Aerospace Sciences Meeting and Exhibit, 6-9 January\u00a02003<\/strong>, Reno, NV.<\/li>
        30. “Using Spinning Drop Tensiometry to Determine the Square Gradient Parameter for Dodecyl Acrylate\/Poly (Dodecyl Acrylate) for Use in the TIPMPS Flight Investigation” Brian Zoltowski, John A. Pojman* Microgravity Science and Space Processing, AIAA 2003-0996, 41st AIAA Aerospace Sciences Meeting and Exhibit, 6-9 January\u00a02003<\/strong>, Reno, NV.<\/li>
        31. “Modeling of the Photopolymerization Kinetics of Docecyl Acrylate for the TIPMIPS Flight Investigation” William J. Ainsworth, John A. Pojman, Yuri Chekanov, and Victor T. Wyatt, Microgravity Science and Space Processing, AIAA-2003-0820, 41st AIAA Aerospace Sciences Exhibit and Meeting 6-9 January\u00a02003<\/strong>, Reno, NV.<\/li>
        32. “Behavior and limitations of isothermal frontal polymerization of methyl methacrylate systems, Lydia L. Lewis , Alford Perryman, John Pojman ,\u00a0Proc. ACS Poly. Mat. Sci and Eng. 88(1), 1-2 (2003).<\/li>
        33. “Estimation of the square gradient parameter for dodecyl acrylate\/poly(dodecyl acrylate) using spinning drop tensiometry,”\u00a0\u00a0Brian D. Zoltowski*, John A. Pojman,\u00a0 and Vitaly Volpert,\u00a0Proc. ACS Poly. Mat. Sci and Eng. 88(1), 461-462 (2003).<\/li>
        34. \u00a0“Measuring the diffusion coefficient for dodecyl acrylate\/poly(dodecyl acrylate) using laser line deflection,” Charles P. Edwards, Lydia L. Lewis, Alford Perryman*, David Rankin, and John Pojman,\u00a0Proc. ACS Poly. Mat. Sci and Eng. 88(1), 350-350 (2003).<\/li>
        35. “Measuring viscosity via fluorescence during the adiabatic, neat photopolymerization of dodecyl acrylate.”\u00a0Victor T. Wyatt*, Kayce C. Leard, David Creed,\u00a0 Brian D. Zoltowski,\u00a0 Patrick H. Bunton,\u00a0 Blair Unger, Joseph Huff, Victoria Owensby, and John Pojman,\u00a0Proc. ACS Poly. Mat. Sci and Eng. 88(1), 469-470 (2003).<\/li>
        36. “Transient interfacial phenomena in miscible polymer systems,”\u00a0Nick Bessonov, John A. Pojman, and Vitaly Volpert, Brian\u00a0<\/strong>Zoltowski, Proc. ACS Poly. Mat. Sci and Eng. 88(1), 570-571 (2003).<\/li>
        37. “Controlled initiation of polymerization reactions using microencapsulation techniques,” Brian H. McFarland and J. A. Pojman, Polym. Prep. 44(1), 909-910 (2003)<\/li>
        38. “Characterization of the kinetics of the adiabatic photopolymerization of dodecyl acrylate,” William J. Ainsworth*, Yuri A. Chekanov, John A. Pojman, and Victor T. Wyatt, Polym. Prep. 44(1), 1075-1076 (2003)<\/li>
        39. “Numerical Simulations of Transient Interfacial Phenomena in Miscible Fluids, AIAA-2004-631,” N. Bessonov, J. A.\u00a0 Pojman, Vitaly A. Volpert, 42nd AIAA Aerospace Sciences Meeting, (2004).<\/li>
        40. “Miscible Fluids in Microgravity (MFMG), AIAA-2004-962,” N. Bessonov, J. A.\u00a0 Pojman, Vitaly A. Volpert, 42nd AIAA Aerospace Sciences Meeting, (2004).<\/li>
        41. \u00a0“Preparation and analysis of peroxide core microcapsules” Brian McFarland and John A. Pojman, Polymer Preprints (American Chemical Society, Division of Polymer Chemistry)\u00a0 (2004),\u00a0 45(1),\u00a0 1-2<\/li>
        42. “Photoinitiated Frontal Polymerization Kinetics of Meth(Acrylates)”,Nason, C; Hoyle, CE; Pojman, J, Polymer Preprints (Division of Polymer Chemistry, American Chemical Society), (2004), 45(2), 53-54<\/li><\/ol>

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