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Publications


  1. Investigation of Fuel and Media Flexible Laminar Flow-based Fuel Cells F. Brushett, R. S. Jayashree, W. P. Zhou, P. J. A. Kenis, Elect. Acta, 2009, 54 (27), 7099-7105.
  2. Chemical Engineering at The University of Illinois at Urbana-Champaign E. G. Seebauer, P. J. A. Kenis, M. Miletic, Chem. Eng. Ed., 2009, 43 (3), 179-185.
  3. Cadherin and Integrin Regulation of Epithelial Cell Migration J. Silvestre, P.J.A. Kenis, D.E. Leckband, Langmuir, 2009, published online.
  4. Microfluidic Generation of Lipidic Mesophases for Membrane Protein Crystallization. S.L. Perry, G.W. Roberts, J.D. Tice, R.B. Gennis, P.J.A. Kenis, Cryst. Growth & Design, 2009, 9 (6), 2566-2569.
  5. Microfluidic chip for combinatorial mixing and screening of assays. B. R. Schudel, C. J. Choi, B. T. Cunningham, P. J. A. Kenis, Lab on a Chip, 2009, 9 (12), 1676-1680.
    • In the top 10 accessed articles on hte Lab on a Chip website for the month of June, 2009.
  6. Ruthenium cluster-like chalcogenide as a methanol tolerant cathode catalyst in air-breathing laminar flow fuel cells. D. Whipple, R. S. Jayashree, D. Egas, N. Alonso-Vante, P. J. A. Kenis, Electrochimica Acta, 2009, 54, 4384-4388.
  7. Electronic properties of a monolayer-electrolyte interface obtained from mechanistic impedance analysis. C. Gupta, M. Shannon, P. J. A. Kenis, J. Phys. Chem., 2009, 113 (21), 9375-9391.
  8. Mechanisms of charge transport through monolayer-modified polycrystalline gold electrodes in the absence of redox active moieties. C. Gupta, M. Shannon, P. J. A. Kenis, Journal of Physical Chemistry, 2009, 113 (11), 4687-4705.
  9. Alkaline Microfluidic Hydrogen-Oxygen Fuel Cell as a Cathode Characterization Platform. F. R. Brushett, W-P Zhou, R. S. Jayashree, P. J. A. Kenis, J. Electrochem. Soc., 2009, 156 (5), B565-571.
  10. Design of Crystallization Processes from Laboratory Research and Development to the Manufacturing Scale Part I & II. N.C.S. Kee, X.Y. Woo, L.M. Goh, E. Rusli, G. He, V. Bhamidi, R.B.H. Tan, P.J.A. Kenis, C.F. Zukoski, R.D. Braatz, American Pharmaceutical Review, 2009, 11 (6 & 7), 112-115 & 66-74.
  11. Multiplexed electrical sensor arrays in microfluidic networks. Matthew Cole, Paul J.A. Kenis, Sensors and Actuators B, 2009, 136, 350-358.
  12. Engineering Redox-Sensitive Linkers for Genetically Encoded FRET-based Biosensors. Vladimir L. Kolossov, Bryan Q. Spring, Anna Sokolowski, John E. Conour, Robert M. Clegg, Paul J. A. Kenis, H. Rex Gaskins, Experimental Biology and Medicine, 2008, 233, 238-248.
    • SEBM’s 2008 Alan MacDiarmid Best Paper Award in the interdisciplinary research category
  13. The Role of Surface Defects in CO Oxidation, Methanol Oxidation, and Oxygen Reduction on Pt(111). Jacob S. Spendelow, Qinqin Xu, Jason D. Goodpaster, Paul J. A. Kenis, Andrzej Wieckowski, J. Electrochem. Soc., 2007, 154 (12), F238-F242.
  14. Metastable States of Small Molecule Solutions. Guangwen He, Reginald B. H. Tan, Paul J. A. Kenis, Charles F. Zukoski, J. Phys. Chem., 2007, 111 (51), 14121-14129.
  15. Generalized Phase Behavior of Small Molecules and Nanoparticles. Guangwen He, Reginald B. H. Tan, Paul J. A. Kenis, Charles F. Zukoski, J. Phys. Chem. B., 2007, 111, 12494-12499.
  16. Fabrication of Ceramic Microscale Structures. Christian, P.J.A. Kenis, J. Am. Cer. Soc., 2007, 90 (9), 2779-2783.
  17. Patterning by Etching at the Nanoscale (PENs) on Si(111) through the Controlled Etching of PDMS. M. Perring, M. Mitchell, P.J.A. Kenis, N.B. Bowden, Chemistry of Materials, 2007, 19 (11), 2903-2909.
  18. A microfluidic hydrogen fuel cell with a liquid electrolyte. R.S. Jayashree, M. Mitchell, D. Natarajan, L.J. Markoski, P.J.A. Kenis, Langmuir, 2007, 23 (13), 6871-6874.
  19. A Kinetic Model to Simulate Protein Crystal Growth in an Evaporation-Based Crystallization Platform. S. Talreja, P.J.A. Kenis, C.F. Zukoski, Langmuir, 2007, 23 (8), 4516-4522.
  20. Double transfer printing of small volumes of liquids. C. Gupta, G.A. Mensing, M.A. Shannon, P.J. A. Kenis, Langmuir, 2007, 23 (5), 2906-2914.
  21. Microfluidic flow-flash: A new method for investigating protein dynamics. M.W. Toepke, S.H. Brewer, D.M. Vu, K.D. Rector, J.E. Morgan, R.B. Gennis, P.J.A. Kenis, R.B. Dyer, Anal. Chem., 2007, 79, 122-128.
  22. Active Control of the Depletion Boundary Layer in Microfluidic Electrochemical Reactors. S.K. Yoon, G. Fichtl, P.J.A. Kenis, Lab on a Chip, 2006, 6, 1516-1524.
  23. Methanol dehydrogenation and oxidation on Pt(111) in alkaline solutions. J.S. Spendelow, J.D. Goodpaster, P.J.A. Kenis, A. Wieckowski, Langmuir, 2006, 22 (25), 10457 -10464.
  24. Ceramic microreactors for on-site hydrogen production from high temperature steam reforming of propane. Christian, M. Mitchell, P.J.A. Kenis, Lab on a Chip, 2006, 6, 1328-1337.
    • Highlighted in:
      • Chemical Technology: “Porous catalyst operates at high temperatures without coking; Microreactors for hydrogen fuel cells”, 2006, 3, T41-T44
      • www.fuelcellworks.com: “Microreactors for hydrogen fuel cells
      • Inside Illinois: “Ceramic microreactors developed for on-site hydrogen production”, Oct. 5, 2006
  25. Direct Growth of Glycine from Neutral Aqeuous Solutions by Slow, Evaporation-Driven Crystallization. G. He, V. Bhamidi, S.R.Wilson, R.B.H. Tan, P.J.A. Kenis, C.F. Zukoski, Crystal Growth & Design, 2006, 6 (8), 1746-1749.
  26. Microreactor for On-Site Hydrogen Production. Christian, M. Mitchell, D.-P. Kim, P.J.A. Kenis, J. Catalysis, 2006, 241, 235-42.
  27. Mechanism of CO Oxidation on Pt(111) in Alkaline Media. J.S. Spendelow, J.D. Goodpaster, P.J.A. Kenis, A. Wieckowski, J. Phys. Chem. B., 2006, 110, 9545-9555.
  28. Determination of Critical Supersaturation from Microdroplet Evaporation Experiments. G. He, V. Bhamidi, R.B.H. Tan, P.J.A. Kenis, C.F. Zukoski, Crystal Growth & Design, 2006, 6 (5), 1175-1180.
  29. Passive Direct Formic Acid Microfabricated Fuel Cells. J. Yeom, R.S. Jayashree, C. Rastogi, M.A. Shannon, P.J.A. Kenis, J. Power Sources, 2006, 160, 1058–1064.
  30. Air-breathing Laminar Flow-based Direct Methanol Fuel Cell with Alkaline Electrolyte. R.S. Jayashree, D. Egas, D. Natarajan, J.S. Spendelow, L.J. Markoski, P.J.A. Kenis, Electrochemical and Solid State Letters, 2006, 9 (5), A252-256.
  31. Cell Migration and Polarity on Microfabricated Gradients of Extracellular Matrix Proteins. R. Gunawan, J. Silvestre, H.R. Gaskins, L.B. Schook, P.J.A. Kenis, D.E. Leckband, Langmuir, 2006, 22, 4250-4258.
  32. Cross metathesis on Olefin-Terminated Monolayers on Si(111). S. Dutta, M. Perring, S. Barrett, M. Mitchell, P.J.A. Kenis, N.B. Bowden, Langmuir, 2006, 22, 2146-2155.
  33. Air-Breathing Laminar Flow Based Microfluidic Fuel Cell. R.S. Jayashree, L. Gancs, E.R. Choban, A. Primak, D. Natarajan, L.J. Markoski, P.J.A. Kenis, J. Am. Chem. Soc., 2005, 127 (48), 16758-16759. [Supplemental Material]
  34. Screening and optimization of protein crystallization conditions through gradual evaporation using a novel crystallization platform. S. Talreja, D.Y. Kim, A.Y. Mirarefi, C.F. Zukoski, P.J.A. Kenis, J. Appl. Crystallography, 2005, 38, 988-995.
  35. Reorientation of the interface between two liquids of different densities flowing laminarly through a microchannel. S.K. Yoon, M. Mitchell, E.R. Choban, Paul J.A. Kenis, Lab on a Chip, 2005, 5, 1259-1263.
  36. Simple Methods for the Direct Assembly, Functionalization, and Patterning of Acid-Terminated Monolayers on Si(111). M. Perring, S. Dutta, S. Arafat, M. Mitchell, P. J. A. Kenis, N.B. Bowden, Langmuir, 2005, 21 (23), 10537-44.
  37. In-situ Deposition and Patterning of Single-Walled Carbon Nanotubes By Laminar Flow and Controlled Flocculation in Microfluidic Channels. J.-U. Park, M.A. Meitl, S.-H. Hur, M.L. Usrey, M.S. Strano, P.J.A. Kenis, J.A. Rogers, Angew. Chem., 2005, 118 (4), 595-599.
  38. Laminar Flow-Based Electrochemical Microreactor for Efficient Regeneration of Nicotinamide Cofactors for Biocatalysis. S.K. Yoon, E.R. Choban, C. Kane, T. Tzedakis, P.J.A. Kenis, J. Am. Chem. Soc., 2005, 127, 10466-10467. [Supplemental Material]
    • Highlighted in:
      • Lab-on-a-Chip: “Microfluidic cofactor regeneration”, 2005, vol. 5, p. 1002-3
      • Chemical Engineering: “Another microreactor milestone for biocatalysis”, Sept. 2005, p. 18-20
      • www.innovations-report.com
  39. Multilevel Microfluidics via Single-Exposure Photolithography. M.W. Toepke, P.J.A. Kenis, J. Am. Chem. Soc., 2005, 127, 7674-7675. [Supplemental Material]
    • Highlighted in:
      • Lab-on-a-Chip: “Multilevel microfluidics”, 2005, vol. 5, p. 709
  40. Twists and Turns in the Development and Maintenance of Mammalian Small Intestine Epithelium. A.L. Hauck, K.S. Swanson, P.J.A. Kenis, D.E. Leckband, H.R. Gaskins, L.B. Schook, Birth Defects Research (Part C), 2005, 75, 58-71 (review).
  41. Mild Methods to Assemble and Pattern Organic Monolayers on Hydrogen-Terminated Si(111). S.N. Arafat, S. Dutta, M. Perring, M. Mitchell, P.J.A. Kenis, N.B. Bowden, Chem. Comm., 2005, 3198-3200.
  42. Membraneless laminar flow-based microfuel cells operating in alkaline, acidic, and acidic/alkaline media. E.R. Choban, J.S. Spendelow, L. Gancs, A. Wieckowski, P.J.A. Kenis, Electrochimica Acta, 2005, 50 (27), 5390-5398.
    • Highlighted in:
      • Business Week: “Fixing the flow in fuel cells”, 3/11/05, p. 95
      • News Gazette: "UI fuel cells promise to keep us energized, eventually", 5/1/2005 (front page)
      • Science News: "Pinstripe Electricity" 4/2/2005, vol. 167, p. 211
      • New Scientist: "First Membrane-free Alkaline Fuel Cell Built," 3/22/2005
      • Chemical Engineering Progress: “Fuel Cell Takes a microfluidic route to Reducing Operating Costs”, July 2005, p.14
      • Chemical Processing: “Fuel cell design achieves basic breakthrough”, June 2005, p.11
      • APS News: “Building a Better Fuel Cell Using Microfluidics” May 2005, p. 2-7
      • Financial Times (German Issue)
      • Deutschlandfunk, German National Radio
  43. Fabrication of macroporous SiC and SiCN materials for high temperature microreactors. I.-K. Sung, Christian, M. Mitchell, D.-P. Kim, P.J.A. Kenis, Advanced Functional Materials, 2005, 15, 1336-1342.
    • Highlighted on:
      • www.sciencedaily.com, www.fuelcellsworks.com, www.innovations-report.com, www.physorg.com: “Catalyst support structures facilitate high-temperature fuel reforming”
  44. Electrooxidation of Formic Acid on Electrodeposited Pt and Pt/Pd Catalyst Structures. R. S. Jayashree, J.S. Spendelow, J. Yeom, C. Rastogi, M.A. Shannon, P.J.A. Kenis, Electrochimica Acta, 2005, 50 (24), 4674-4682.
  45. Method for Independent Evaluation of Working/Counter Electrode Performance in Microfluidic Electrochemical Systems: Analysis of a Membraneless Micro Fuel Cell. E.R. Choban, P. Waszczuk, P.J.A. Kenis, Electrochemical and Solid State Letters, 2005, 8 (7), A348-A352.
  46. Regiospecific Control of Gene Expression in Cells Cultured on Two-component Counter Gradients of Extracellular Matrix Proteins. R. Gunawan, E.R. Choban, J. Conour, J. Silvestre, H.R. Gaskins, L.B. Schook, P.J.A. Kenis, D.E. Leckband, Langmuir, 2005, 21, 3061-3068.
  47. Fabrication and characterization of a silicon-based millimeter scale, microfabricated PEM fuel cell operating with hydrogen, methanol, or formic acid as fuels. J. Yeom, G.Z. Mozsgai, B.R. Flachsbart, E.R. Choban, A. Asthana, M.A. Shannon, P.J.A. Kenis, Sensors and Actuators B, 2005, 107 (2), 882-991.
  48. Fabricating Complex Three Dimensional Nanostructures with High Resolution Conformable Phase Masks. S. Jeon, J.-U. Park, R. Cirelli, S. Yang, C.E. Heitzman, P.V. Braun, P.J.A. Kenis, J.A. Rogers, PNAS, 2004, 101, 12428-12433.
  49. Electrooxidation of Adsorbed CO on Pt(111) and Pt(111)/Ru in Alkaline Media and Comparison with Results from Acidic Media. J.S. Spendelow, G.Q. Lu, P.J.A. Kenis, A. Wieckowski, J. Electroanal. Chem., 2004, 268, 215-224.
  50. Micro-Fluidic Fuel Cell Based on Laminar Flow. E.R. Choban, L.J. Markoski, A. Wieckowski, P.J.A. Kenis, J. Power Sources, 2004, 128, 54-60.
    • Highlighted in:
      • C & E News: "Fuel Cells Minus Membranes", vol. 82, p.7, 3/29/04
      • News-Gazette: "Charged up over fuel cells" 10/26/04
  51. Solving Mazes Using Microfluidic Networks. M. J. Fuerstman, P. Deschatelets, R. Kane, A. Schwartz, P.J.A. Kenis, J. M. Deutch, G.M. Whitesides, Langmuir, 2003, 19, 4714-4722.
  52. Pressure-driven laminar flow in tangential microchannels: an elastomeric microfluidic switch. R. F. Ismagilov, D. Rosemarin, P. J. A. Kenis, D. T. Chiu, W. Zhang, H. A. Stone, G. M. Whitesides, Anal. Chem., 2001, 73, 4682-4687.
  53. Microfluidic arrays of fluid-fluid diffusional contacts as detection elements and combinatorial tools. R. F. Ismagilov, J. M. K. Ng, P. J. A. Kenis, G. M. Whitesides, Anal. Chem., 2001, 73, 5207-5213.
  54. Fabrication and characterization of microscale sandwich beams. F. Arias, P. J. A. Kenis, B. Xu, T. Deng, O. J. A. Schueller, G. M. Whitesides, Y. Sugimura, A. G. Evans, J. Mat. Res., 2001, 16, 597-605.
  55. Microfabrication inside capillaries using fluid flow. P. J. A. Kenis, R. F. Ismagilov, S. Takayama, G. M. Whitesides, S. Li, H. S.White, Acc. of Chem. Res., 2000, 33, 841-847.
  56. Patterning of electro osmotic flow with patterned surface charges. A. D. Stroock, M. Weck, D. T. Chiu, W. T. S. Huck, P. J. A. Kenis, R. F. Ismagilov, G. M. Whitesides, H. A. Stone, Phys. Rev. Lett., 2000, 84, 3314-3317.
  57. Experimental and theoretical scaling laws for transverse diffusive broadening in two-phase laminar flows in microchannels. R. F. Ismagilov, A. D. Stroock, P. J. A. Kenis, G. M. Whitesides, H. A. Stone, Appl. Phys Lett., 2000, 76, 2376-2378.
  58. Fabrication of metallic microstructures using exposed developed silver halide-base photographic film. T. Deng, F. Arias, R. F. Ismagilov, P. J. A. Kenis, G. M. Whitesides, Anal. Chem., 2000, 72, 645-651.
  59. Patterning cells and their environments using multiple laminar fluid flows in capillary networks. S. Takayama, J. C. McDonald, E. Ostuni, M. N. Liang, P. J. A. Kenis, R. F. Ismagilov, G. M. Whitesides, Proc. Natl. Acad. Sci., 1999, 96, 5545-5548.
  60. Microfabrication inside capillaries using multiphase laminar flow patterning. P. J. A. Kenis, R. F. Ismagilov, G. M. Whitesides, Science, 1999, 285, 83-85 (cover).
  61. Supramolecular materials: Molecular packing of tetranitrocalix[4]arene in highly stable second-order NLO-active films. P. J. A. Kenis, O. F. J. Noordman, H. Schönherr, E. G. Kerver, B. H. M. Snellink-Ruël, G. J. van Hummel, S. Harkema, C. P. J. M. van der Vorst, J. Hare, S. J. Picken, J. F. J. Engbersen, G. J. Vancso, Chemistry, a European Journal, 1998, 4, 1225-1234.
  62. Scanning force microscopy studies on molecular packing and friction anisotropy in thin films of tetranitrotetrapropoxycalix[4]arene. H. Schönherr, P. J. A. Kenis, J. F. J. Engbersen, S. Harkema, A. J. R. L. Hulst, D. N. Reinhoudt, G. J. Vancso, Langmuir, 1998, 14, 2801-2809.
  63. High hyperpolarizabilities of donor-p-acceptor-functionalized calix[4]arene derivatives by pre-organization of chromophores. P. J. A. Kenis, E. G. Kerver, B. H. M. Snellink-Ruël, G. J. van Hummel, S. Harkema, M. C. Flipse, R. H. Woudenberg, J. F. J. Engbersen, D. N. Reinhoudt, Eur. Jour. Org. Chem., 1998, 1089-1098.
  64. Second-order nonlinear optical properties of the four tetranitrotetrapropoxycalix[4]arene conformers. P. J. A. Kenis, O. F. J. Noordman, S. Houbrechts, G. van Hummel, S. Harkema, K. Clays, J. F. J. Engbersen, A. Persoons, N. F. Van Hulst, D. N. Reinhoudt, Jour. Am Chem. Soc., 1998, 120, 7875-7883.
  65. Second-order nonlinear optical active calix[4]arene polyimides suitable for frequency doubling in the UV-region. P. J. A. Kenis, O. F. J. Noordman, J. F. J. Engbersen, N. F. Van Hulst, D. N. Reinhoudt, B. H. M. Hams, C. P. J. M. van der Vorst, Chem. Mater., 1997, 9, 596-601.
  66. Structure and reactivity of copper-dioxygen complexes derived from molecular receptor ligands. R. J. M. Klein Gebbink, C. F. Martens, P. J. A. Kenis, R. J. Jansen, H.-I. Nolting, V. Solé, M. C. Feiters, K. D. Karlin, R. J. M. Nolte, Inorg. Chem., 1999, 38, 5755-5768.
  67. Characterization of a [4Fe-4S]-ferredoxin model based on a concave tetradentate thiol ligand system. C. F. Martens, M. M. G. Bongers, P. J. A. Kenis, R. Czajka, M. C. Feiters, J. G. M. van der Linden, R. J. M. Nolte, Chemische Berichte / Recueil, 1997, 130, 23-33.

Proceedings


  1. Microfluidic Chips for Membrane Protein Crystallization. P.J.A. Kenis, J.D. Tice, S.L. Perry, G.W. Roberts, S. Talreja, Micro-TAS 11th International Conference, 2007, 590-592.
  2. Palladium-Nanoparticles on Platinum-Black Catalysts Integrated into a Microfabricated Si-Based Micro-Fuel Cell. Jayashree, R. S., J. Yeom, G. Z. Mozsgai, E. R. Choban, J. Spendelow, P. J. A. Kenis, M. A. Shannon, Solid-State Sensors and Actuators Workshop, 2004, 266-269.
  3. A Microscale Vapor-Fed Formic Acid Fuel Cell. Yeom, J., R. S. Jayashree, G. Z. Mozsgai, A. Asthana, E. R. Choban, M. Mitchell, P. J. A. Kenis, M. A. Shannon, Solid-State Sensors and Actuators Workshop, 2004, 125-128.
  4. A Silicon Microfabricated Direct Formic Acid Fuel Cell. J. Yeom, G.Z. Mozsgai, B.R. Flachsbart, A. Asthana, P. Waszczuk, E.R.Choban, P.J.A. Kenis, M.A. Shannon, ASME Fuel Cell Science, Engineering and Technology Proceedings, 2003, 267-272.
  5. Membraneless Fuel Cell Based on Laminar Flow. E.R. Choban, P. Waszczuk, L.J. Markoski, A. Wieckowski, P.J.A. Kenis, ASME Fuel Cell Science, Engineering and Technology Proceedings, 2003, 261-265.
  6. Microfluidic fuel cells that lack a polymer electrolyte membrane. E.R. Choban, L.J. Markoski, J. Stoltzfus, J.S. Moore, P.J.A. Kenis, Power Sources Proceedings, 2002, 40, 317-320.
  7. Calix[4]arenes as building blocks in second order nonlinear optics. P. J. A. Kenis, B. H. M. Snellink-Ruël, O. F. J. Noordman, N. F. van Hulst, J. F. J. Engbersen, and D. N. Reinhoudt, IEEE/LEOS Proceedings, 1996, 308-311.
  8. Molecular and macroscopic second-order nonlinear optical properties of calix[4]arenes. P. J. A. Kenis, O. F. J. Noordman, B. H. M. Snellink-Ruël, J. F. J. Engbersen, N. F. van Hulst, D. N. Reinhoudt, ACS-Proceedings, PMSE-div., 1996, 75, 317-318.