Publications

1. S.W. Li, T.S. Lin, S. Minteer, and W.J. Burke, "3,4-Dihydroxyphenylacetaldehyde and hydrogen peroxide generate a hydroxyl radical: possible role in Parkinson's disease pathogenesis," Molecular Brain Research, 93, 2001, 1-7.

2. S. Brancato and S.D. Minteer "Electrochemical Studies of Surface Modified Glass Bead/Nafion Composites," Langmuir, 17, 2001, 6304-6308.

3. M. Schrenk, R. Villigram, N. Torrence, S. Brancato, and S.D. Minteer, "Effects of Mixture Casting Nafion with Quaternary Ammonium Bromide Salts on the Ion Exchange Capacity and Mass Transport in the Films," Journal of Membrane Science, 205, 2002, 3-10.

4. K.J. Oberbroeckling, D.C. Dunwoody, S.D. Minteer, and J. Leddy, "Density of Nafion Exchanged with Transition metal Complexes, Tetramethyl Ammonium, Ferrous, and Hydrogen Ions: Commercial and Recast Films," Analytical Chemistry, 74, 2002, 4794-4799.

5. N.J. Torrence, C.M. Moore, and S.D. Minteer, " Electrochemical Effects of Surface Modified Glass Microspheres in Polyvinylpyridine and Polystyrene Sulfonate Composite Electrodes," Langmuir, 18, 2002, 6254-6258.

6. M.P. Gordito, D.H. Kotsis, S.D. Minteer, and D.M. Spence, "Flow-Based Amperometric Detection of Dopamine in an Immobilized Cell Reactor," Journal of Neuroscience Methods, 124, 2003, 129-134.

7. T.J. Thomas, K.E. Ponnusamy, N.M. Chang, K. Galmore, and S.D. Minteer, "Effects of Annealing on Mixture-Cast Membranes of Nafion and Quaternary Ammonium Bromide Salts," Journal of Membrane Science, 213, 2003, 55-66.

8. N.L. Akers, C.M. Moore, and S.D. Minteer, "Development of Alcohol/O2 Biofuel Cells Using Salt-Extracted Tetrabutylammonium Bromide/Nafion Membranes to Immobilize Dehydrogenase Enzymes," Electrochimica Acta, 50, 2005, 2521-2525.

9. T.J. Thomas and S.D. Minteer, "Study of the Transport of Erythromycin through Tetrabutylammonium Doped Nafion/Surface Modified Glass Microsphere Composites," Polymeric Materials: Science and Engineering, 88, 2003, 207-208.

10. N.L. Akers and S.D. Minteer, "Towards the Development of a Membrane Electrode Assembly (MEA) Style Biofuel Cell," Proceedings of the ACS Fuel Chemistry Division, 48(2), 2003, 895-896.

11. C.M. Moore, N.L. Akers, and S.D. Minteer, "Improving the Environment for Immobilized Dehydrogenase Enzymes by Modifying Nafion with Tetraalkylammonium Bromides," Biomacromolecules, 5, 2004, 1241-1247.

12. C.M. Moore, S. Hackman, T. Brennan, and S.D. Minteer, "Effect of Mixture Casting Phosphonium Salts with Nafion on the Proton Exchange Capacity and Mass Transport through the Membranes," Journal of Membrane Science, 254, 2005, 63-70.

13. N.L. Akers and S.D. Minteer, " A Novel Approach to Designing Highly Efficient and Commercially Viable Biofuel Cell," Proceedings of the 2nd International Fuel Cell Conference, 2, 2004, 497-501. (invited)

14. M.D. Arning, B.L. Treu, and S.D. Minteer, "Citric Acid Cycle Biomimic in an Ammonium Salt Modified Nafion Membrane for Fuel Cell Applications," Polymeric Materials: Science & Engineering, 90, 2004, 566-569.

15. C.M. Moore, N.L. Akers, A. Hill, Z. Johnson, and S.D. Minteer, "Immobilizing Oxidoreductase Enzymes in Surfactant and Symmetrical Ammonium Treated Nafion," Polymer Preprints, 45(1), 2004, 15-16.

16. D.A. Capretto and S.D. Minteer, "Improving Efficiency in Chlor-Alkali Systems Using Encapsulated High Field Magnetic Materials in Composite Modified Anodes," Polymer Preprints, 45(1), 2004, 13-14.

17. C.M. Moore, S. Hackman, T. Brennan, and S.D. Minteer, "Effects of Surfactants on the Ability to Immobilize Enzymes in Nafion Membranes and the Transport Properties of Redox Species through Nafion Membranes," Journal of Membrane Science, 255, 2005, 233-238.

18. C.M. Moore, S.D. Minteer, and R.S. Martin, " Microchip-based Ethanol/Oxygen Biofuel Cell," Lab-on-a-Chip, 5, 2005, 218-225.

19. M.D. Arning and S.D. Minteer, "Electrode Potentials," invited chapter in Handbook of Electrochemistry, Elsevier: Amsterdam, 2007, 813-827.

20. S. Topcagic, B.L. Treu, and S.D. Minteer, "Characterization/Optimization of Oxygen Biocathodes for Membraneless Biofuel Cells," Proceedings of the Electrochemical Society, 18, 2004, 230-242.

21. J.L. Smith, P.B. Patel, S.D. Minteer, J. R. Lipsitz, and J.S. Fisher, "Possibility of autocrine beta-adrenergic signaling in C2C12 myotubes," Experimental Biology and Medicine, 230, 2005, 845-852.

22. Z. He, S. Minteer, and L.T. Angenent, "Electricity Generation from Artifical Wastewater Using an Upflow Microbial Fuel Cell," Environmental Science and Technology, 39, 2005, 5262-5267.

23. S. Topcagic and S.D. Minteer, "Development of a Membraneless Ethanol/Oxygen Biofuel Cell," Electrochimica Acta, 51, 2006, 2168-2172 (invited).

24. B.L. Treu and S.D. Minteer, "Improving the Lifetime, Simplicity, and Power of an Ethanol Biofuel Cell by Employing Ammonium Treated Nafion Membranes to Immobilize PQQ-dependent Alcohol Dehydrogenase," Polymeric Materials: Science & Engineering, 92, 2005, 192-193.

25. Y.V. Ulyanova and S.D. Minteer, "Molecularly Imprinted Poly(Methylene Green) Electrodes for the Determination of Theophylline," Polymeric Materials: Science & Engineering, 92, 2005, 48-49.

26. S. Topcagic, B.L. Treu, and S.D. Minteer, "Characterization of Oxygen Biocathodes Employing Tetrabutylammonium Bromide Treated Nafion Immobilization Membranes," Polymeric Materials: Science & Engineering, 92, 2005, 201-203.

27. Y.A. Ansari and S.D. Minteer, "Development of Fructose Biofuel Cell," Polymer Preprints, 46, 2005, 625-626. 28. J. Kerr and S.D. Minteer, "Development of Enzyme Immobilization Polymers for a Soybean Oil Powered Fuel Cell," Polymer Preprints, 46, 2005, 623-624.

29. S. Minteer, "Nanomaterials in Fuel Cells," Sigma-Aldrich ChemFiles, 5(3), 2005, 8.

30. Y.V. Ulyanova, A.E. Blackwell, and S.D. Minteer, "Poly(methylene green) Employed as a Molecularly Imprinted Polymer Matrix for Electrochemical Sensing," The Analyst, 131, 2006, 257-261. (invited)

31. A. Kinsella, R.S.Martin, and S.D. Minteer, "Microfluidic Ethanol Biofuel Cell," Proceedings of the American Chemical Society Fuel Cell Division, 50(2), 2005, 622.

32. S. D. Minteer and C.M. Moore, "Microfluidic Ethanol Biobatteries on a Microchip," Microfluidic Techniques, Humana Press, 2006, 157-766.

33. S.D. Minteer, "Alcohol and Carbohydrate-based Biofuel Cells," Proceedings of the International Bioenergy Conference, ERL/ITRI, 2006, 193-201.

34. Z. He, N. Wagner, S.D. Minteer, and L.T. Angenent, "The Upflow Microbial Fuel Cell with an Interior Cathode: Assessment of the Internal Resistance by Impedance Spectroscopy," Environmental Science and Technology, 2006, 40, 5212-5217. (invited)

35. A. Kinsella, R.S. Martin, and S.D. Minteer, "Towards the Development of a Microchip-Based Biofuel Cell," Polymer Preprints, 47, 2006, 605-606.

36. T. Zawodzinski, S. Minteer, and G. Brissard, "Physical and Analytical Electrochemistry: The Fundamental Core of Electrochemistry," Electrochemical Society Interface, 15, 2006, 62-65.

37. R.L. Arechederra and S.D. Minteer, "Increasing the Effective Surface Area of Bioelectrodes with Carbon Black/Nafion Composites," Polymeric Materials: Science & Engineering, 94, 2006, 558-559.

38. M.C. Beilke and S.D. Minteer, "Immobilization of Glycolysis Enzymes in Hydrophobically Modified Nafion," Polymeric Materials: Science & Engineering, 94, 2006, 556-557.

39. M.M. Watt and S.D. Minteer, "Effects of Hydrophobic Modification of Nafion on Enzyme Immobilization," Polymeric Materials: Science & Engineering, 94, 2006, 601-602.

40. T. L. Klotzbach and S.D. Minteer, "Effects of Hydrophobic Modification of Chitosan on Transport Properties, Ion Exchange Capacities, and Enzyme Immobilization," Polymeric Materials: Science & Engineering, 94, 2006, 599-600.

41. J. Kerr and S.D. Minteer, "Development of Lipoxygenase Bioanodes for Biofuel Cells," Polymeric Materials: Science & Engineering, 94, 2006, 594-595.

42. Y.A. Ansari and S.D. Minteer, "Development of Carbohydrate Bioanodes," Polymeric Materials: Science & Engineering, 94, 2006, 375-376.

43. R. Duma and S.D. Minteer, "Development of Bilirubin Oxidase Cathodes for Ethanol/Oxygen Biofuel Cells," Polymeric Materials: Science & Engineering, 94, 2006, 592-593.

44. T.L. Klotzbach, M.M. Watt, Y.A. Ansari, and S. D. Minteer, "Effect of Hydrophobic Modification of Chitosan and Nafion on Transport Properties, Ion Exchange Capacities, and Enzyme Immobilization," Journal of Membrane Science, 282, 2006, 276-283.

45. J. Kerr and S.D. Minteer, "Soybean oil biofuel cells," Biomolecular Catalysis, 2008, 986, 334-353.

46. A. Kinsella and S.D. Minteer, "Microchip Devices for Bioanalysis" in Molecular Biomethods, 2nd edition, Humana Press, 2008, 851-859.

47. S.W. Buckner, M.J. Fischer, P.A. Jelliss, R. Luo, S.D. Minteer, N.P. Rath, and A. Siemiarczuk, "Dual Fluorescence from an Isonido Re(III) Rhenacarborane Phosphine Complex, [7,10-µ-H-7-CO-7,7-(PPh3)2-isonide-7,8,9-ReC2B7H9], Inorganic Chemistry, 2006, 45, 7339-7347.

48. E.A. Duplessis, P.A. Jelliss, C.C. Kirkpatrick, S.D. Minteer, and K.M. Wampler, "Electrocatalytic reductive dimerization of the 2,2'-bipyridyl tungsten alkylidyne complex [W(?CC6H4NMe2-4)(NCMe)(CO)2{K2-2,2'-(NC5H4)2}]+," Journal of Organometallic Chemistry, 2006, 691, 4660-4666.

49. S.D. Minteer, "Developing High Power Density and Long Lasting Enzymatic Biofuel Cells," Small Fuel Cells, 2006, 7, 403-418. (invited)

50. P.B. Patil, S.D. Minteer, A.A. Mielke, L.R. Lewis, C.A. Casmaer, E.J. Barrientos, J.S. Ju, J.L. Smith, and J.S. Fisher, "Malonyl coenzyme A affects insulin-stimulated glucose transport in myotubes," Archives of Physiology and Biochemistry, 2007, 113, 13-24.

51. V.H. Grassian, G. Meyer, H. Abruna, L.E. Achenie, T. Allison, B. Brunschwig, G.W. Coates, J. Ferry, M. Garcia-Garibay, J. Gardea-Torresdey, C.P. Grey, J. Hutchinson, C.J. Li, C. Liotta, S. Minteer, K. Mueller, A. Ragauskas, J. Roberts, O. Sadik, R. Schmehl, W. Schneider, A. Selloni, P. Stair, J. Stewart, D. Thorn, J. Tyson, B. Voelker, J.M. White, and F. Wood-Black, "Chemistry for a Sustainable Future," Environmental Science and Technology, 2007, 41, 4840-4846.

52. S. Sankaran, R.L. Arechederra, and S.D. Minteer, "Formation of Micellar Structure in Alginate," Polymeric Materials: Science and Engineering, 2007, 96, 523-524.

53. R. Duma and S.D. Minteer, "Chitosan Modified Electrodes for Ethanol/Oxygen Biofuel Cells," Polymeric Materials: Science and Engineering, 2007, 96, 617-618.

54. R.L. Arechederra and S.D. Minteer, "Using Glycerol as Fuel in Biofuel Cells," Fuel Chemistry Preprints 2007, 52, 176-176.

55. A.E. Blackwell and S.D. Minteer, "Dye Polymers as a Drug Release System and An Electrocatalyst for NADH Oxidation," Polymer Preprints 2007, 48, 972-973.

56. T.L. Klotzbach and S.D. Minteer, "Towards the Development of an Azure C Mediated Chitosan Membrane Based Bioanode," Polymer Preprints 2007, 48, 1008-1009.

57. R. Duma and S.D. Minteer, "Bilirubin Oxidase Biocathodes for Ethanol Biofuel Cells," ECS Transactions 2007, 5, 117-127.

58. R. Arechederra and S.D. Minteer, "Nanomaterials for Biofuel Cells," in Nanomaterials for Energy Storage Applications, 2009, pages 287-299.

59. S.D. Minteer, B.Y. Liaw, and M.J. Cooney, "Enzyme-based biofuel cells," Current Opinions in Biotechnology, 2007, 18, 228-234.

60. M.J. Cooney, M. Windmeisser, B.Y. Liaw, C. Lau, T. Klotzbach, and S.D. Minteer, "Design of Chitosan Gel Pore Structure: Towards Enzyme Catalyzed Flow-Through Electrodes," Journal of Materials Chemistry, 2008, 18, 667-674.

61. F. Dogan, D.J. Vidt, M. Mormile, and S.D. Minteer, "Biofuel Cells," Encyclopedia of Chemical Processing, 2009, 1:1, 1-7.

62. P. Atanassov, C. Apblett, S. Banta, S. Brozik, S. Calabrese Barton, M. Cooney, B.Y. Liaw, S. Mukerjee, and S.D. Minteer, "Enzymatic Biofuel Cells," Electrochemical Society Interface, 16, 2007, 28-31.

63. R. Arechederra, B.L. Treu, and S.D. Minteer, "Development of Glycerol/Oxygen Biofuel Cells," Journal of Power Sources, 173, 2007, 156-161.

64. J.T. Steitz, J.R. Worsham, J.E. Anewalt, and S.D. Minteer, "Enzyme-based Biofuel Cells," Encyclopedia of Energy, in press.

65. S.D. Minteer, "Three-Dimensional Electrodes," in Encyclopedia of Micro- and Nano-fluidics, Springer: New York, 2008, 2079-2083.

66. T.L. Klotzbach, M. Watt, Y. Ansari, and S.D. Minteer,"Improving the microenvironment for enzyme immobilization at electrodes by hydrophobically modifying chitosan and Nafion polymers," Journal of Membrane Science, 2008, 311, 81-88.

67. V. Svoboda, M. Cooney, B.Y. Liaw, S. Minteer, E. Piles, D. Lehnert, S.C. Barton, R. Rincon, and P. Atanassov, "Standardized characterization of biocatalytic electrodes," Electroanalysis, 2008, 20, 1099-1109.

68. R. Arechederra and S.D. Minteer, "Organelle-Based Biofuel Cells: Immobilized Mitochondria at Carbon Paper Electrodes," Electrochimica Acta, 2008, 53, 6698-6703.

69. B.L. Treu, R. Arechederra, and S.D. Minteer, "Bioelectrocatalysis of Ethanol via PQQ-Dependent Dehydrogenases Utilizing Carbon Nanomaterial Supports," Journal of Nanoscience and Nanotechnology, 2009, 9, 2374-2380.

70. M. Moehlenbrock and S.D. Minteer, "Extended Lifetime Biofuel Cells," Chemical Society Reviews, 2008, 37, 1188-1196.

71. P.A. Jelliss, S.D. Minteer, M. Patel, A. Siemiarczuk, M. Watt, and R.E.K. Winter, "Unique properties of a perfluoroalkyl-modified 2,2'-bipyridyl ruthenium complex in a Nafion membrane: attenuated leaching of a potential biofuel cell redox mediator," Journal of Materials Chemistry, 2008, 18, 2104-2111.

72. D. Sokic-Lazic and S.D. Minteer, "Polymer-based Kreb's Cycle Biomimic," Polymer Materials: Science & Engineering, 2008, 98, 847-848.

73. M. N. Germain, R.L. Arechederra, and S.D. Minteer, "Drug Delivery System Utilizing Molecularly Imprinted Electropolymers," Polymer Materials: Science & Engineering, 2008, 98, 806-807.

74. J.R. Worsham, A.E. Blackwell, and S.D. Minteer, "Conducting Dye Polymers as an Electrocatalyst for NADH Oxidation for Biosensors," Polymer Preprints, 2008, 49, 1111-1112.

75. C.E. Menius, M.C. Beilke, and S.D. Minteer, "Immobilization of Glycolysis Enzymes in Modified Chitosan," Polymer Materials: Science & Engineering, 2008, 98, 528-529.

76. Z. Zulic and S.D. Minteer, "Induction of PQQ-dependent Alcohol Dehydrogenase in Gluconobacter Suboxydans for Use as Bioelectrocatalysts," Proceedings of the ACS Fuel Division, 2008, 53, 546-548.

77. R. Arechederra and S.D. Minteer, "Development of a High Power Density Glycerol Bioanode Capable of Complete Oxidation via a 3 Enzyme Cascade," Proceedings of the ACS Fuel Division, 2008, 53, 2-3.

78. A.E. Blackwell, M.J. Moehlenbrock, J.R. Worsham, and S.D. Minteer, "Comparison of Electropolymerized Thiazine Dyes as an Electrocatalyst in Enzymatic Biofuel Cells and Self Powered Sensors," Journal of Nanoscience and Nanotechnology, 2009, 9, 1719-1726.

79. R. Arechederra and S.D. Minteer, "Complete Oxidation of Glycerol in an Enzymatic Biofuel Cell," Fuel Cells, 2009, 9(1), 63-69.

80. B.L. Treu and S.D. Minteer, "Isolation and Purification of PQQ-dependent Lactate Dehydrogenase from Gluconobacter and Use for Direct Electron Transfer at Carbon and Gold Electrodes," Bioelectrochemistry, 2008, 74, 71-77.

81. M.J. Cooney, G. Martin, C. Lau, V. Svoboda, and S.D. Minteer, "Enzyme catalyzed biofuel cells," Energy and Environmental Science, 2008, 1, 320-337.

82. D. Sokic-Lazic and S.D. Minteer, "Citric acid cycle biomimic on a carbon electrode," Biosensors and Bioelectronics, 2008, 24, 945-950.

83. M.J. Cooney, J. Petermann, C. Lau, S.D. Minteer, "Characterization and Evaluation of Hydrophobically Modified Chitosan Scaffolds: towards design of enzyme immobilized flow-through electrodes," Carbohydrate Polymers, 2009, 75, 428-435.

84. C. Spahn and S.D. Minteer, "Enzyme Immobilization in Biotechnology," Recent Patents on Engineering, 2008, 2, 195-200.

85. G. Martin, S. Minteer, and M.J. Cooney, "Spatial distribution of malate dehydrogenase in amphiphilic chitosan scaffolds," Applied Materials and Interfaces, 2009, 1(2) 367-372.

86. A.K. Sarma, P. Goswami and S.D. Minteer, "Recent Advances in Materials Science for Developing Enzyme Electrodes," Biosensors and Bioelectronics, 2009, 24, 2313-2322.

87. M. Germain, R. Arechederra, and S.D. Minteer, "Nitroaromatic Actuation of Mitochondrial Bioelectrocatalysis for Self Powered Explosive Sensors," Journal of the American Chemical Society, 2008, 130(46), 15272-15273.

88. C. Hettige, S.D. Minteer, and S. Calabrese Barton, "Simulation of Multi-Step Enzyme Electrodes," ECS Transactions, 2008, 13/21, 99-109.

89. K. Sjoholm, M.J. Cooney, and S.D. Minteer, "Effects of Degree of Deacetylation on Enzyme Immobilization in Hydrophobically Modified Chitosan," Carbohydrate Polymers, 2009, 77, 420-424.

90. G. Martin, S.D. Minteer, and M.J. Cooney, "Fluorescence characterization of chemical microenvironments in hydrophobically modified chitosan," Carbohydrate Polymers, 2009, 77, 695-702.

91. K.M. Boehm, R.L. Arechederra, and S.D. Minteer, "Use of Modified Nafion Membranes to Immobilize Whole and Lysed Mitochondria," Polymeric Materials: Science & Engineering, 2009, 100, 545-546.

92. M.N. Germain and S.D. Minteer, "Structure Determination of Poly(methylene green)," Polymeric Materials: Science & Engineering, 2009, 100, 636-638.

93. C.E. Menius, R.L. Arechederra, and S.D. Minteer, "Microscopic Characterization of Micellar Structures in Modified Nafion Films," Polymer Materials: Science & Engineering, 2009, 100, 625-626.

94. S. Besic and S.D. Minteer, "Heat Press Modified Nafion Membrane for Enzyme Immobilization and Stabilization in Air-Breathable Biocathodes," Polymeric Materials: Science & Engineering, 2009, 100, 561-562.

95. Z. Zulic and S.D. Minteer, "Optimization of PQQ-dependent Alcohol Dehydrogenase Activity in Gluconobacter sp. 33 for Use in Biofuel Cells," Proceedings of the Fuel Chemistry Division, 2009, 54, 186-187.

96. P.K. Addo and S.D. Minteer, "Methanol Biofuel Cell Based on NAD-dependent Enzymes Immobilized at Electrodes by Hydrophobically Modified Nafion Polymer," Proceedings of the Fuel Chemistry Division, 2009, 54, 184-185.

97. C.E. Menius and S.D. Minteer, "Immobilization of the First Five Glycolysis Enzymes for Biofuel Cell Applications," Proceedings of the Fuel Chemistry Division, 2009, 54, 182-183.

98. S. Besic and S.D. Minteer, "Enzymatic Bioreactor for Butanol Production," Proceedings of the Fuel Chemistry Division, 2009, 54, 178-179.

99. R.L. Arechederra and S.D. Minteer, "Development of Low Temperature Glycerol and Ethylene Glycol Fuel Cells Capable of High Energy Density and Complete Oxidation," Proceedings of the Fuel Chemistry Division, 2009, 54, 52-53.

100. J. Wildrick, P.A. Jelliss, and S.D. Minteer, "Development of a one-pot hydrophobic modification of chitosan towards the development of a ferrocene-mediated laccase biocathode," Polymer Preprints, 2009, 50, 130-131.

101. D. Sokic-Lazic and S.D. Minteer, "Pyruvate/air enzymatic biofuel cell capable of complete oxidation," Electrochemical and Solid-State Letters, 2009, 12(9), F26-F28.

102. M.C. Beilke, T.L. Klotzbach, B.L. Treu, D. Sokic-Lazic, J. Wildrick, E.R. Amend, L.M. Gebhart, R.L. Arechederra, M.N. Germain, M.J. Moehlenbrock, Sudhanshu, and S.D. Minteer, "Enzymatic Biofuel Cells," in Micro-Fuel Cells: Principles and Applications, Elsevier, 2009, 179-241.

103. R. Arechederra, K. Boehm, and S.D. Minteer, " Mitochondrial Bioelectrocatalysis for Biofuel Cell Applications," Electrochimica Acta, 2009, 54, 7268-7273.

104. S. Minteer, "Biofuel Cells: Enzyme Catalysis of Oils," Encyclopedia of Industrial Biotechnology, 2010, 1, 637-641.

105. M. J. Moehlenbrock, R. L. Arechederra, K. H. Sjoholm, and S.D. Minteer, "Analytical Techniques for Characterizing Enzymatic Biofuel Cells," Analytical Chemistry, 2009, 81(23), 9538-9545.

106. K. H. Sjoholm, M.J. Cooney, and S.D. Minteer, "Biocompatible Micellar Environment for Enzyme Encapsulation for Bioelectrocatalysis Applications," ECS Transactions, 2009, 19(21), 1-7.

107. R. Arechederra and S.D. Minteer, "Kinetics and transport analysis of immobilized oxidoreductases that oxidize glycerol and its oxidation products," Electrochimica Acta, 2010, 55, 7679-7682.

108. Z. Zulic and S.D. Minteer, "Enzymatic Fuel Cells and Their Complementarities Relative to BES/MFC" in Bioelectochemical Systems, IWA Publishing: London, 2009, 39-58.

109. P. Addo, R. Arechederra, and S. D. Minteer, "Evaluating Enzyme Cascades for Methanol/Air Biofuel Cells Based on NAD-dependent Enzymes," Electroanalysis, 2010, 22(7-8), 807-812.

110. R. Rincoln, M. Germain, K. Artyushkova, M. Mojica, M. Germaine, P. Atanassov, and S.D. Minteer, "Structure and Electrochemical Properties of Electrocatalysts for NADH Oxidation," Electroanalysis, 2010, 22(7-8), 799-806.

111. G. Martin, S.D. Minteer, and M.J. Cooney, "Fluorescence analysis of chemical microenvironments and their correlation to performance of immobilized enzyme," Analyst, 2010, 135, 1131-1137.

112. W. Gellett, M. Kesmez, J. Schumacher, N. Akers, and S.D. Minteer, "Biofuel Cells for Portable Power," Electroanalysis, 2010, 22(7-8), 727-731.

113. D. Sokic-Lazic, R.L. Arechederra, B.L. Treu, and S.D. Minteer, "Oxidation of Biofuels: Fuel Diversity and Effectiveness of Fuel Oxidation through Multiple Enzyme Cascades," Electroanalysis, 2010, 22(7-8), 757-764.

114. C. Lau, G. Martin, S.D. Minteer, and M.J. Cooney, "Development of a Chitosan Scaffold Electrode for Fuel Cell Applications," Electroanalysis, 2010, 22(7-8), 793-798.

115. W. Gellett, J. Schumacher, M. Kesmez, D. Le, and S.D. Minteer, "High Current Density Air-Breathing Laccase Biocathode," Journal of the Electrochemical Society, 2010, 157(4), B557-B562.

116. C. Jenkins, M. Germain, R. Rincoln, K. Artyushkova, P. Atanassov, and S. Minteer, "Chemical Synthesis of Poly(methylene blue) and Poly(methylene green) for NADH Electrocatalysis Applications," Polymer Preprints, 2010, 51(1), 809-810.

117. D.J. Wetzel, M.E. Moll, C.N. Fischer, M.N. Germain, and S.D. Minteer, "Nitroaromatic Uncoupling of Mitochondrial Bioelectrocatalysis in Modified Nafion Membranes," Polymer Preprints, 2010, 51(1), 817-818.

118. B.L. Treu, D. Sokic-Lazic, and S.D. Minteer, "Bioelectrocatalysis of Pyruvate with PQQ-dependent Pyruvate Dehydrogenase," ECS Transactions, 2010, 25 (28), 1-11.

119. S. Xu and S.D. Minteer, "Design and Optimization of Sugar Powered Biofuel Cells Based on PQQ-dependent Enzymes," Proceedings of the Fuel Division, 2010, 55(1), 640-641.

120. S. Besic and S.D. Minteer, "Clostridium Acetobutylicum NADH-dependent Butanol Dehydrogenase for Use in Butanol Bioproduction," Proceedings of the Fuel Division, 2010, 55(1), 634-635.

121. Z. Caban, S. Minteer, A. Demchenko, A. Ramakrishnan, "Towards the Development of a Laccase Airbreathing Bioelectrode with Anthracene Modified Chitosan," Proceedings of the Fuel Division, 2010, 55(1), 620-621.

122. M.J. Moehlenbrock, T.K. Toby, A. Waheed, and S.D. Minteer, "Metabolon Catalyzed Pyruvate/Air Biofuel Cell," Journal of the American Chemical Society, 2010, 132(18), 6288-6289.

123. M. Arechederra, C. Jenkins, R. Rincon, K. Artyushkova, P. Atanassov, and S.D. Minteer, "Chemical Polymerization and Electrochemical Characterization of Thiazine for NADH Electrocatalysis Applications," Electrochimica Acta, 2010, 55, 6659-6664.

124. P. Addo, R. Arechederra, and S.D. Minteer, "Towards a Rechargeable Alcohol Biobattery," Journal of Power Sources, 2011, 196 (7), 3448-3451.

125. M. Arechederra, D. Wetzel, C. Fischer, and S.D. Minteer, "Evaluation of the Electron Transport Chain Inhibition and Uncoupling of Mitochondria Bioelectrocatalysis with Antibiotics and Nitro-Based Compounds," Electrochimica Acta, 2010, 56, 938-944.

126. S. Higgins, S.D. Minteer, and M.J. Cooney, "Characterization of Flow-Through Microbial Fuel Cells," Proceedings of the ACS Fuel Division, 2010, 55(2), 298-299.

127. S. Xu and S.D. Minteer, "Developing a complete oxidation direct electron transfer glucose biofuel cell," Proceedings of the ACS Fuel Division, 2010, 55(2), 346-347.

128. R.L. Arechederra and S.D. Minteer, "Fuel cells that use mitochondria as energy conversion matrices to generate electricity from biofuels," Proceedings of the ACS Fuel Division, 2010, 55(2), 348-349.

129. R.L. Arechederra, K. Artyushkova, P. Atanassov, and S.D. Minteer, "Growth of Phthalocyanine Doped and Undoped Nanotubes Using Mild Synthesis Conditions for Development of Oxygen Reduction Catalysts," ACS Applied Materials & Interfaces, 2010, 2(11), 3295-3302.

130. C. Fischer, S. Xu, R. Arechederra, and S.D. Minteer, "Mitochondrial Biofuel Cells: Expanding Fuel Diversity to Amino Acids," Physical Chemistry Chemical Physics, 2011, 13, 86-92.

131. M. Arechederra, P. Addo, and S.D. Minteer, "Poly(Neutral Red) as a NAD Reduction Catalyst and a NADH Oxidation Catalyst: Towards Development of a Rechargeable Biobattery," Electrochimica Acta, 2011, 56, 1585-1590.

132. G. Martin, S.D. Minteer, and M. Cooney, "Fluorescence characterization of immobilization induced enzyme aggregation," Chemical Communications, 2011, 47, 2083-2085.

133. M. Moehlenbrock, T. Toby, L. Pelster, and S.D. Minteer, "Metabolon catalysts: , an efficient model for multi-enzyme cascades at electrode surfaces," ChemCatChem, 2011, 3(3), 561-570.

134. P. Addo, R. Arechederra, Abdul Waheed, William Sly, James Shoemaker, and S.D. Minteer, "Methanol Production via Bioelectrocatalytic Reduction of Carbon Dioxide: Role of Carbonic Anhydrase in Improving Electrode Performance ," Electrochemical and Solid State Letters, 2011, 14(4), E9-E13.

135. D. Sokic-Lazic, A. de Andrade, and S.D. Minteer, "Utilization of Enzyme Cascades for Complete Oxidation of Lactate in an Enzymatic Biofuel Cell," Electrochimica Acta, 2011, 56, 10772-10775.

136. Z. Zulic and S.D. Minteer, "Induced evolution of PQQ-dependent alcohol dehydrogenase activity in Gluconobacter sp.33 for use in enzymatic biofuel cells," Journal of Biobased Materials and Bioenergy, 2011, 5(1), 63-69.

137. R. Arechederra and S.D. Minteer, "Self-Powered Sensors," Analytical and Bioanalytical Chemistry, 2011, 400(6), 1605-1611.

138. P. Kar, S.D. Minteer, and S. Calabrese-Barton, "Simulation of Multi-step Enzyme-catalyzed Methanol Oxidation in Biofuel Cells," Journal of the Electrochemical Society, 2011, 158, B580-B586.

139. S. Higgins, C. Lau, O. Bretschger, K. Nealson, S.D. Minteer, P. Atanassov, and M. Cooney, "Fabrication of Macroporous Chitosan Scaffolds Doped with Carbon Nanotubes and Their Characterization in Microbial Fuel Cell Operation," Enzyme and Microbial Technology, 2011, 48, 458-465.

140. Z. Zhu, Y. Wang, S. Minteer, and Y.H.P. Zhang, "Maltodextrin-powered enzymatic fuel cell through a non-natural enzymatic pathway," Journal of Power Sources, 2011, 196, 7505-7509.

141. M. Meredith and S.D. Minteer, "Inhibition and Activation of Glucose Oxidase Bioanodes for Use in a Self-Powered EDTA Sensor," Analytical Chemistry, 2011, 93(13),5436-5441.

142. R. Arechederra, A. Waheed, and S.D. Minteer, "Electrically Wired Mitochondrial Electrodes for Measuring Mitochondrial Function for Drug Screening," Analyst, 2011, 136, 3747-3752.

143. S. Higgins, C. Lau, S.D. Minteer, P. Atanassov, and M. Cooney, "Standardized Characterization of a Flow Through Microbial Fuel Cell", Electroanalysis, 2011, 23(9), 2174-2181.

144. S. Higgins, C. Lau, S.D. Minteer, P. Atanassov, and M. Cooney, "Hybrid Biofuel Cell: Microbial Fuel Cell with an Enzymatic Air-Breathing Cathode", ACS Catalysis, 2011, 1(9), 994-997.

145. K. Sjoholm and S.D. Minteer, "Development of conductive mesoporous structures from chitosan," ECS Transactions, in press.

146. M. Moehlenbrock, M. Meredith, and S.D. Minteer, "Bi-functional Polyamines for the Aqueous Dispersion of Carbon Nanotubes and Formation of CNT-Impregnated Hydrogel Composites," MRS Communications, 2011, 1(1), 37-40.

147. M. Zhang, S. Xu, S.D. Minteer, and D. Baum, "Investigation of a deoxyribozyme as a biofuel cell catalyst," Journal of the American Chemical Society, 2011, 133, 15890-15893.

148. S. Meredith, M. Meredith, and S.D. Minteer, "Hydrophobic Salt Modified Nafion for Enzyme Immobilization and Stabilization," Journal of Visualized Experiments, in press.

149. M. Meredith, M. Minson, D. Hickey, K. Artyushkova, D. Glatzhofer, and S.D. Minteer, "Anthracene-Modified Multi-Walled Carbon Nanotubes as Direct Electron Transfer Scaffolds for Enzymatic Oxygen Reduction," ACS Catalysis, 2011,1(12), 1683-1690.

150. Minteer, S.D. Micellar enzymology for thermal, pH, and solvent stability. Methods in molecular biology (2011) (Clifton, N.J.), 679, pp. 19-24.

151. Besic, S., Minteer, S.D. Micellar polymer encapsulation of enzymes. Methods in molecular biology (2011) (Clifton, N.J.), 679, pp. 113-131.

152. Moehlenbrock, M.J., Minteer, S.D. Introduction to the field of enzyme immobilization and stabilization. (2011) Methods in molecular biology (Clifton, N.J.), 679, pp. 1-7.

153. Moehlenbrock, M.J., Meredith, M.T., Minteer, S.D. Bioelectrocatalytic oxidation of glucose in CNT impregnated hydrogels: Advantages of synthetic enzymatic metabolon formation. ACS Catalysis, (2012) 2 (1), pp. 17-25.

154. Pelster, L.N., Minteer, S.D. Ubiquinol-cytochrome c reductase (Complex III) electrochemistry at multi-walled carbon nanotubes/Nafion modified glassy carbon electrodes.
Electrochimica Acta, (2012) 82, pp. 214-217.

155. Campbell, E., Meredith, M., Minteer, S.D., Banta, S. Enzymatic biofuel cells utilizing a biomimetic cofactor. Chemical Communications, (2012) 48 (13), pp. 1898-1900.

156. Xu, S., Minteer, S.D. Enzymatic biofuel cell for oxidation of glucose to CO2. ACS Catalysis, (2012) 2 (1), pp. 91-94.

157. Tuurala, S., Lau, C., Atanassov, P., Smolander, M., Minteer, S.D. Characterization and Stability Study of Immobilized PQQ-Dependent Aldose Dehydrogenase Bioanodes. Electroanalysis, (2012) 24 (2), pp. 229-238.

158. Minteer, S.D., Atanassov, P., Luckarift, H.R., Johnson, G.R. New materials for biological fuel cells Materials Today, (2012) 15 (4), pp. 166-173.

159. Maltzman, S.L., Minteer, S.D. Mitochondrial-based voltammetric sensor for pesticides. Analytical Methods, (2012) 4 (5), pp. 1202-1206.

160. Pelster, L.N., Meredith, M.T., Minteer, S.D. Nicotinamide Adenine Dinucleotide Oxidation Studies at Multiwalled Carbon Nanotube/Polymer Composite Modified Glassy Carbon Electrodes. Electroanalysis, (2012) 24 (5), pp. 1011-1018.

161. Meredith, M.T., Giroud, F., Minteer, S.D. Azine/hydrogel/nanotube composite-modified electrodes for NADH catalysis and enzyme immobilization. Electrochimica Acta, (2012) 72, pp. 207-214.

162. Meredith, M.T., Minteer, S.D. Biofuel cells: Enhanced enzymatic bioelectrocatalysis. Annual Review of Analytical Chemistry, (2012) 5, pp. 157-179.

163. Meredith, S., Xu, S., Meredith, M.T., Minteer, S.D. Hydrophobic salt-modified nafion for enzyme immobilization and stabilization. Journal of Visualized Experiments, (2012), (65).

164. Minson, M., Meredith, M.T., Shrier, A., Giroud, F., Hickey, D., Glatzhofer, D.T., Minteer, S.D. High Performance Glucose/O2 Biofuel Cell: Effect of Utilizing Purified Laccase with Anthracene-Modified Multi-Walled Carbon Nanotubes, Organic and Bioelectrochemistry. J. Electrochem. Soc. 2012, 159, 12, G166-G170.

165. Sjoholm, K., Rasmussen, M., Minteer, S.D. Bio-Solar Cells Incorporating Catalase for Stabilization of Thylakoid Bioelectrodes during Direct PhotoelectrocatalysisOrganic and Bioelectrochemistry ECS Electrochem. Lett. 2012, 1, 5, G7-G9.

166. Lee, G.G.W., Leddy, J., Minteer, S.D. Enhanced alcohol electrocatalysis with the introduction of magnetic composites into nickel electrocatalysts. Chemical Communications, (2012) 48 (98), pp. 11972-11974.

167. Chen, D., Lee, G.G.W., Minteer, S.D. Utilizing DNA for Electrocatalysis: DNA-Nickel Aggregates as Anodic Electrocatalysts for Methanol, Ethanol, Glycerol, and Glucose. ECS Electrochem. Lett. 2013, 2, 2, F9-F13.

168. Aquino Neto, S., Suda, E.L., Xu, S., Meredith, M.T., De Andrade, A.R., Minteer, S.D. Direct electron transfer-based bioanodes for ethanol biofuel cells using PQQdependent alcohol and aldehyde dehydrogenases. Electrochimica Acta, (2013) 87, pp. 323-329.

169. Kim, Y.H., Campbell, E., Yu, J., Minteer, S.D., Banta, S. Complete oxidation of methanol in biobattery devices using a hydrogel created from three modified dehydrogenases. Angewandte Chemie - International Edition, (2013) 52 (5), pp. 1437-1440.

170. Rasmussen, M., Minteer, S.D. Self-powered herbicide biosensor utilizing thylakoid membranes. Analytical Methods, (2013) 5 (5), pp. 1140-1144.

171. Arechederra, R.L., Waheed, A., Sly, W.S., Supuran, C.T., Minteer, S.D. Effect of sulfonamides as carbonic anhydrase VA and VB inhibitors on mitochondrial metabolic energy conversion. Bioorganic and Medicinal Chemistry, (2013) 21 (6), pp. 1544-1548.

172. M. Rasmussen and S.D. Minteer, “Investigating the mechanism of thylakoid direct electron transfer for photocurrent generation,” Electrochimica Acta, 2014, 126, 68-73

173. S. Sattayasamitsathit, Y. Gu, K. Kaufmann, S.D. Minteer, R. Polsky, and J. Wang, “ Tunable Hierarchical Macro/Mesoporous Gold Microwires Fabricated by Dual-Templating and Dealloying Processes,” Nanoscale, 2013, 5(17), 7849-7854

174. R. Reid, F. Giroud, S.D. Minteer, and B. Gale, “Enzymatic Biofuel Cell with a Flow-Through Toray Paper Bioanode for Improved Fuel Utilization,” Journal of the Electrochemical Society, 2013, 160(9), H612-H619.

175. Wu and S.D. Minteer, “Fluorescent Characterization of Co-Immobilization Induced Multi-Enzyme Aggregation in a Polymer Matrix Using Förster Resonance Energy Transfer (FRET) : Towards the Metabolon Biomimic,” Biomacromolecules, 2013, 14(8), 2739-2749.

176. A.Walcarius, S.D. Minteer, J. Wang, Y. Lin, and A. Merkoci, “Nanomaterials for Bio-Functionalized Electrodes: Recent Trends,” Journal of Materials Chemistry B, 2013, 1(38), 4878-4908.

177. S. Aquito-Neto, M.Meredith, S.D. Minteer, and A. de Andrade, “Employing Methylene Green Coated Carbon Nanotube Electrodes to Enhance NADH Electrocatalysis for Use in an Ethanol Biofuel Cell,” Electroanalysis, 2013, 25(10), 2394-2402

178. R. Milton, F. Giroud, A. Thumser, S.D. Minteer, and R. Slade, “Hydrogen peroxide produced by glucose oxidase affects the performance of laccase cathodes in glucose/oxygen fuel cells: FAD-dependent glucose dehydrogenase as a replacement,” Physical Chemistry Chemical Physics, 2013, 15(44), 19371-19379

179. V.Paul, B. Treu, S.D. Minteer, and M. Mormile, “Ability of Haloalkaliphilic Bacterium Isolated from Soap Lake, Washington to Generate Electricity at pH 11 and 7% Salinity,” Environmental Technology, 2014, 35(8), 1003-1011

180. D. Hickey, F. Giroud, D. Schmidke, D. Glatzhofer, and S.D. Minteer, “Enzyme Cascade for Catalyzing Sucrose Oxidation,” ACS Catalysis, 2013, 3(12), 2729-2737.

181. Milton, F. Giroud, A. Thumser, S.D. Minteer, and R. Slade, “Bilirubin oxidase bioelectrocatalytic cathodes: the impact of hydrogen peroxide,” ChemComm, 2014, 50(1), 94-96.

182. S. Xu and S.D. Minteer, “Investigating the Impact of Multi-Heme Pyrroloquinoline Quinone-Aldehyde Dehydrogenase Orientation on Direct Bioelectrocatalysis via Site Specific Enzyme Immobilization,” ACS Catalysis, 2013, 3, 1756-1763.

183. M. Rasmussen, A. Wingersky, and S.D. Minteer, “Improved Performance of a Thylakoid Bio-Solar Cell by Incorporation of Carbon Quantum Dots,” ECS Electrochemistry Letters, 2014, 3(2), H1-H3.

184. A. Shrier, F. Giroud, M. Rasmussen, and S.D. Minteer, “Operational Stability Assays for Bioelectrodes for Biofuel Cells: Effect of Immobilization Matrix on Laccase Biocathode Stability,” Journal of the Electrochemical Society, 2014, 161(4), H244-H248.

185. S. Aquino Neto, T.S. Almeida, L.M. Palma, S.D. Minteer, A. de Andrade, "Hybrid Nanocatalysts Containing Enzymes and Metallic Nanoparticles for Ethanol/O2 Biofuel Cell,” Journal of Power Sources, 2014, 259, 25-32.

186. M. Rasmussen and S.D. Minteer, “Comparative study of thylakoids from higher plants for solar energy conversion and herbicide detection,” Electrochimica Acta, 2014, 140, 304-308

187. R.D. Milton, F. Giroud, A.E. Thumser, S.D. Minteer, and R.C.T. Slade, “Glucose oxidase progressively lowers bilirubin oxidase bioelectrocatalytic cathode performance in single-compartment glucose/oxygen biological fuel cells,” Electrochimica Acta, 2014, 140, 59-64.

188. A. Khabibullin, S.D. Minteer, and I. Zharov, “Effect of sulfonic acid group content in pore-filled silica colloidal membranes on their proton conductivity and direct methanol fuel cell performance,” Journal of Materials Chemistry A, 2014, 2(32), 12761-12769.

189. S. Xu and S.D. Minteer, “Pyrroloquinoline Quinone (PQQ)-Dependent Enzymatic Bioanode: Incorporation of  Substituted Polyaniline Conducting Polymer as Mediator,” ACS Catalysis, 2014, 4, 2241-2248.

190. Chen, F. Giroud, and S.D. Minteer, “Nickel Cysteine Complexes as Anodic Electrocatalysts for Fuel Cells,” Journal of the Electrochemical Society, 2014, 161, F933-F939.

191. S. Xu and S.D. Minteer, “Characterizing Efficiency of Multi-Enzyme Cascade-based Biofuel Cells by Product Analysis,” ECS Electrochemistry Letters, 2014, 3, H24-H27.

192. F. Giroud, D. Hickey, D. Schmidke, D. Glatzhofer, and S.D. Minteer, “Monosaccharide-based Coin Cell Biobattery,” ChemElectroChem, 2014, 1, 1880-1885.

193. M. Rasmussen and S.D. Minteer, “Thylakoid direct photobioelectrocatalysis: utilizing stroma thylakoids to improve bio-solar cell performance,” Physical Chemistry Chemical Physics, 2014, 16(32), 17327-17331.

 194. M. Rasmussen and S.D. Minteer, “Photobioelectrochemistry: solar energy conversion and biofuel production with photosynthetic catalysts,” Journal of the Electrochemical Society, 2014, 161 (10), H647-H655.

195. N. Hausman, S.D. Minteer, and D. Baum, “Controlled Placement of Enzymes on Carbon Nanotubes using Comb-Branched DNA,” Journal of the Electrochemical Society, 2014, 161(13), H3001-H3004.

196. R. Milton and S.D. Minteer, “Investigating the Reversible Inhibition Model of Laccase by Hydrogen Peroxide for Bioelectrocatalytic Applications,” Journal of the Electrochemical Society, 2014, 161(13), H3011-H3014.

197. Aquito de Neto, T.S. Almeida, D. Belnap, S.D. Minteer, and A. de Andrade, “Enhanced NADH Electrocatalysis onto MWCNTs-decorated Gold Nanoparticles and their Use in Hybrid Biofuel Cell,” Journal of Power Sources, 2015, 273, 1065-1072.

198. K. Nguyen, F. Giroud, and S.D. Minteer, “Improved bioelectrocatalytic oxidation of sucrose in a biofuel cell with an enzyme cascade assembled on a DNA scaffold,” Journal of the Electrochemical Society, 2014, 161(14), H930-H933.

199. Y. Ulyanova, M. Arugula, M. Rasmussen, S. Singhal, and S.D. Minteer, “Bioelectrocatalytic Oxidation of Alkanes in a JP-8 Enzymatic Biofuel Cell,” ACS Catalysis, 2014, 4, 4289-4294.

200. D. Hickey, M. McCammett, F. Giroud, M. Sigman, and S.D. Minteer, “Hybrid Enzymatic and Organic Electrocatalytic Cascade for the Complete Oxidation of Glycerol,” Journal of the American Chemical Society, 2014, 136(45),15917-15920.

201. F. Wu and S.D. Minteer, “Krebs Cycle Metabolon: Structural Evidence of Substrate Channeling,” Angewandte Chemie, 2015, 54(6), 1851-1854.

 202. F. Wu, L. Pelster, and S.D. Minteer, “Krebs Cycle Metabolon Formation: Metabolite Concentration Gradient Enhanced Compartmentation of Sequential Enzymes,” Chemical Communications, 2015, 51, 1244-1247.

203. B. Tan, D. Hickey, R. Milton, and S.D. Minteer, “Regeneration of the NADH Cofactor by a Rhodium Complex Immobilized on Multi-Walled Carbon Nanotubes,” Journal of the Electrochemical Society, 2015, 162(3), H102-H107.

204. Reid, S.D. Minteer, and B. Gale, “Contact Lens Biofuel Cell Tested in a Synthetic Tear Solution,” Biosensors & Bioelectronics, 2015, 68, 142-148.

205. M. Rasmussen, R.P. Milton, D.P. Hickey, R. Reid, and S.D. Minteer, “From PEM Fuel Cell Design to Biological Fuel Cells: The Status of Systems Development for Biological Fuel Cells,” ECS Transactions, 2014, 64(3), 881-895.

206. Xu, L. Pelster, M. Rasmussen, and S.D. Minteer, “Anodic bioelectrocatalysis: from metabolic pathways to metabolons,” in Enzymatic Fuel Cells, 2014,Wiley, 53-79.

207. D. Minteer, H. Luckarift, and P. Atanassov, “Electrochemical evaluation of enzymatic biofuel cells and figures of merit,” in Enzymatic Fuel Cells, 2014, Wiley, 4-11.

208. F. Giroud, R.D. Milton, B. Tan, and S.D. Minteer, “Simplifying Enzymatic Biofuel Cells: Immobilized Naphthoquinone as a Biocathodic Orientational Moiety and Bioanodic Electron Mediator,” ACS Catalysis, 2015, 5, 1240-1244.

209. Nguyen and S.D. Minteer, “DNA-Functionalized Pt nanoparticles as catalyst for chemically powered micromotor: Toward signal-on motion-based DNA biosensor,”ChemComm, 2015, 51, 4792-4784.

210. D. Chen and S.D. Minteer, “Mechanistic study of nickel based catalysts for oxygen evolution and methanol oxidation in alkaline medium,” Journal of Power Sources, 2015, 284, 27-37.

211. S. Aquino Neto, R.D. Milton, L. Crepaldi, D.P. Hickey, A. de Andrade, and S.D. Minteer, “Co-immobilization of Gold Nanoparticles with Glucose Oxidase to Improve.

212. Bioelectrocatalytic Glucose Oxidation,” Journal of Power Sources, 2015, 285, 493-498.

213. Rasmussen and S.D. Minteer, “Long-Term Arsenic Monitoring with an Enterobacter cloacae Microbial Fuel Cell,” Bioelectrochemistry, 2015, 106, 207-212.

214. R. Milton, K. Lim, D.P. Hickey, and S.D. Minteer, “Employing FAD-Dependent Glucose Dehydrogenase within a Glucose/Oxygen Enzymatic Fuel Cell Operating in Human Serum,” Bioelectrochemistry, 2015, 106, 56-63.

215. Aquino Neto, R.D. Milton, D.P. Hickey A. de Andrade, and S.D. Minteer, “High Current Density PQQ-dependent Alcohol and Aldehyde Dehydrogenase Bioanodes,” Biosensors & Bioelectronics, 2015, 72, 247-254.

216. D. Milton, D.P. Hickey, S. Abdellaeoui, K. Lim, F. Wu, and S.D. Minteer, “Rational design of quinones for high power density biofuel cells,” Chemical Science, 2015, 6, 4867-4875.

217. M. Rasmussen, S. Abdellaeoui, and S.D. Minteer, “Enzymatic Biofuel Cells: 30 Years of Critical Advancements,” Biosensors & Bioelectronics, 2016, 76, 91-102.

218. K. Van Nguyen and S.D. Minteer, “Investigating DNA hydrogels as a new biomaterial for enzyme immobilization in biobatteries ,” ChemComm, 2015, 51, 13071-13073.

219. N.K. Kirchofer, M. Rasmussen, F. Dahlquist, S.D. Minteer, and G.C. Bazan, “The Photobioelectrochemical Activity of Thylakoid Bioanodes is Increased via Photocurrent Generation and Improved Contacts by Membrane-Intercalating Conjugated Oligoelectrolytes,” Energy & Environmental Science, 2015, 8, 2698-2706.

220. S. Abdelaoui, D. Hickey, A. Stephens, and S.D. Minteer, “Recombinant oxalate decarboxylase: Enhancement of a hybrid catalytic cascade for the complete electro-oxidation of glycerol,” ChemComm, 2015, 51, 14330-14333.

221. C. Lau, M.J. Moehlenbrock, R. L. Arechederra, A. Falase, K. Garcia, R. Rincon, S.D. Minteer, S. Banta, G. Gupta, S. Babanova, and P. Atanassov , “Paper based biofuel cells: Incorporating enzymatic cascades for ethanol and methanol oxidation,” International Journal of Hydrogen Energy, 2015, 40, 14661-14666.

222. D.P. Hickey, R. D. Milton, D. Chen, M. Sigman, and S.D. Minteer, “TEMPO-Modified Linear Poly(ethylenimine) for Immobilization-Enhanced Electrocatalytic Oxidation of Alcohols,” ACS Catalysis, 2015, 5, 5519-5524

223. Wang, R. Reid, and S.D. Minteer, “A Paper-Based Mitochondrial Electrochemical Biosensor for Pesticide Detection,” Electroanalysis, 2016, 28, 854-859.

224. S.D. Minteer, “Oxidative Bioelectrocatalysis: From Natural Metabolic Pathways to Synthetic Metabolons and Minimal Enzyme Cascades,” Biochimica et Biophysica Acta – Bioenergetics, 2016, 1857, 621-624.

225. D.P. Hickey, R.Reid, R.D. Milton, and S.D. Minteer, “A Self-Powered Amperometric Lactate Biosensor Based on Lactate Oxidase Immobilized in Dimethylferrocene-Modified LPEI,” Biosensors and Bioelectronics, 2016, 77, 26-31.

226. Aquino Neto, A. Zimbardi, F. Cardoso, L. Crepaldi, S. D. Minteer, and A. de Andrade, “Potential application of laccase from Pycnoporus sanguineus in methanol/O2 biofuel cells,” Journal of Electroanalytical Chemistry, 2016, 765, 2-7.

227. S. Abdellaoui, K. Knoche, K. Lim, D. Hickey, and S.D. Minteer, “TEMPO as a promising electrocatalyst for the electrochemical oxidation of hydrogen peroxide in bioelectronic applications,” Journal of the Electrochemical Society, 2016, 163, H3001-H3005.

228. R.D. Milton, F. Wu, K. Lim, S. Abdellaoui, D. Hickey, and S.D. Minteer, “A promiscuous glucose oxidase: electrical energy conversion of multiple (poly)saccharides spanning starch and dairy milk,” ACS Catalysis, 2015, 5, 7218-7225.

229. Holmberg, M. Rodriguez-Delgado, R.D. Milton, N. Ornelas-Soto, S. D. Minteer, R. Parra-Saldivar, and M. J. Madou, “Bioelectrochemical study of thermostable Pycnoporus sanguineus CS43 laccase bioelectrodes based on pyrolytic carbon nanofiber for bioelectrocatalytic O2 reduction,” ACS Catalysis, 2015, 5, 7507-7518.

230. Abdellaoui, R.D. Milton, T. Quah, and S.D. Minteer, “NAD-dependent dehydrogenase bioelectrocatalysis: the ability of a naphthoquinone redox polymer to regenerate NAD+,” Chem Comm, 2016, 52, 1147-1150.

231. D. P. Hickey, R. D. Milton, M. Rasmussen, S. Abdellaoui, K. Nguyen and S. D. Minteer, “Fundamentals and applications of bioelectrocatalysis,” Electrochemistry (RSC), 2016, 13, 97-132.

232.  D.P. Hickey, D. Schiedler, I. Matanovic, P. Doan, P. Atanassov, S.D. Minteer, and M. Sigman, “Predicting Electrocatalytic Properties: Modeling Structure-Activity Relationships of Nitroxyl Radicals,” Journal of the American Chemical Society, 2015, 137, 16179-16186.

233. Wheeldon, S.D. Minteer, S. Banta, S. Calabrese Barton, P. Atanassov, and M. Sigman, “Substrate channeling as an approach to cascade reactions,” Nature Chemistry, 2016, 8, 299-309.

234. S. Koepke, J.J. Watkins, and S.D. Minteer, “Understanding the Role of Mitochondrial Health in the Mechanism of Mitochondrial Bioelectrocatalysis,” Journal of the Electrochemical Society, 2016, 163(5), H292-H298.

235. D. Minteer, “Cell-free biotechnologies,” Biotechnology for Biofuel Production and Optimization, Elsevier, 2016, 433-448.

236. Rana, P. Moussatche, L. S. Rocha, S. Abdellaoui, S. D Minteer, and E. Moomaw, “Isothermal Titration Calorimetry Uncovers Substrate Promiscuity of Bicupin Oxalate Oxidase from Ceriporiopsis subvermispora,” Biochemistry & Biophysics Report, 2016, 5 , 396-400.

237. T. Wang, R.D. Milton, S. Adellaoui, D.P. Hickey, and S.D. Minteer, “Laccase Inhibition by As3+/As5+: Determination of Inhibition Mechanism and Preliminary Application to a Self-Powered Biosensor,” Analytical Chemistry, 2016, 88, 3243-3248.

238. D. Milton, T. Wang, K. Knoche, and S.D. Minteer, “Tailoring Biointerfaces for Electrocatalysis,” Langmuir, 2016, 32, 2291-2301.

239. Zhang, M.A. Arugula, S. Williams, S.D. Minteer, and A.L. Simonian, “Layer-by-layer Assembly of Carbon Nanotubes Modified with Invertase/Glucose Dehydrogenase Cascade for Sucrose/O2 Biofuel Cell,” Journal of the Electrochemical Society, 2016, 163, F449-F454.

240. Van Nguygen, Y. Holade, and S.D. Minteer, “DNA redox hydrogels: Improving mediated enzymatic bioelectrocatalysis,” ACS Catalysis, 2016, 6, 2603-2607.

241. Reid, D. Hickey, S.D. Minteer, and B. Gale, “Modeling Carbon Nanotube Connectivity and Surface Activity in a Contact Lens Biofuel Cell,” Electrochimica Acta, 2016, 203, 30-40.

242. K. Knoche, J. Renner, W. Gellett, K. Ayers, and S.D. Minteer, “A self-sufficient nitrate groundwater remediation system: Geobacter sulfurreducens microbial fuel cell fed by hydrogen from a water electrolyzer,” Journal of the Electrochemical Society, 2016, 163, F651-F656.

243. S. Aquino Neto, R.D. Milton, D.P. Hickey, A. de Andrade, and S.D. Minteer, “Membraneless Enzymatic Ethanol/O2 Fuel Cell: Transitioning from an Air-Breathing Pt-based Cathode to a Bilirubin Oxidase-Based Biocathode,” Journal of Power Sources, 2016, 324, 208-214.

244. R.D. Milton, S. Abdellaoui, D. Dean, L. Seefeldt, D. Leech, and S.D. Minteer, “Nitrogenase bioelectrocatalysis: heterogeneous ammonia and hydrogen production by MoFe protein,” Energy and Environmental Science, 2016, 9, 2550-2554.

245. L. Pelster and S.D. Minteer, “Mitochondrial Inner Membrane Biomimic for the Investigation of Electron Transport Chain Supercomplex Bioelectrocatalysis,” ACS Catalysis, 2016, 6, 4995-4999.

246. M. Gonzalez-Guerrero, F.J. del Campo, J.P. Esquivel, F. Giroud, S.D. Minteer, and N. Sabate, “Paper-based Enzymatic Microfluidic Fuel Cell: From a two-stream flow device to a single-stream lateral flow strip,” Journal of Power Sources, 2016, 326, 410-416.

247. K. Knoche, D.P. Hickey, R.D. Milton, C. Curchoe, and S.D. Minteer, “Hybrid Glucose/O2 Biobattery and Supercapacitor Utilizing a Pseudocapacitive Dimethylferrocene Redox Polymer at the Bioanode,” ACS Energy Letters, 2016, 1, 380-385.

248. B. Bulutoglu, K.E. Garcia, F. Wu, S.D. Minteer, and S. Banta, “Direct evidence for metabolon formation and substrate channeling in recombinant TCA cycle enzymes,” ACS Chemical Biology, 2016, 11, 2847-2853.

249. T. Wang and S.D. Minteer, “Effect of Riboflavin Metabolites on Mitochondrial Electrochemistry,” Journal of the Electrochemical Society, 2016, 163(13), H1047-1052.

250. C. Tapia, R.D. Milton, G. Pankratova, S.D. Minteer, H. Akerlund, D. Leech, A. De Lacey, M. Pita, and L. Gorton, “Wiring of Photosystem I and Hydrogenase on an Electrode for Photoelectrochemical H2 Production using Redox Polymers for Relatively Positive Onset Potential,” ChemElectroChem, 2017, 4, 90-95.

251. Y. Holade, D.P. Hickey, and S.D. Minteer, “Halide-Regulated Growth of Electrocatalytic Metal Nanoparticles Directly on Carbon Paper Electrodes,” Journal of Materials Chemistry A, 2016, 4, 17154-17162.

252. D.P. Hickey, K.L. Knoche, K. Albertson, C. Castro, R.D. Milton, and S.D. Minteer, “Improving O2 Reduction at an Enzymatic Biocathode: Mimicking the Lungs,” ChemComm, 2016, 52, 13299-13302.

253. M. Grattieri, K. Hasan, and S.D. Minteer, “Bio-Electrochemical Systems as A Multipurpose Biosensing Tool: Present Perspective and Future Outlook,” ChemElectroChem, 2016, in press.

254. R.D. Milton and S.D. Minteer, “Enzymatic Bioelectrosynthetic Ammonia Production: Recent Electrochemistry of Nitrogenase, Nitrate Reductase and Nitrite Reductase,” ChemPlusChem, 2016, in press.

255. D. Chen, L. dal Negro, and S.D. Minteer, “Gold nanofiber-based electrode for plasmon-enhanced electrocatalysis,” Journal of the Electrochemical Society, 2016, 163(14), H1132-H1135.

256. T. Quah, R.D. Milton, S. Abdellaoui, D.P. Hickey, and S.D. Minteer, “Cholesterol as a Promising Alternative Energy Source: Bioelectrocatalytic Oxidation using NAD-dependent Cholesterol Dehydrogenase in Human Serum,” Journal of the Electrochemical Society, 2017, 164(3), H3024-H3029.

257. M. Grattieri, K. Hasan, M. Suvira, and S.D. Minteer, “Halotolerant Extremophile Bacteria from the Great Salt Lake for Recycling Pollutants in Microbial Fuel Cells,” Journal of Power Sources, in press.

258. Y. Holade, M. Yuan, R.D. Milton, D. P. Hickey, A. Sugarwara, C. Peterbauer, D. Haltrich, and S.D. Minteer, “Rational Combination of Promiscuous Enzymes Yields a Versatile Enzymatic Fuel Cell with Improved Coulombic Efficiency,” Journal of the Electrochemical Society, 2017, 164(3), H3073-H3082.

259. R. Escalona-Villalpando, R. Reid, R.D. Milton, L.J. Arriaga, S.D. Minteer, and J. Ledesma-Garcia, “Improving the performance of lactate/oxygen biofuel cells using a microfluidic design,” Journal of Power Sources, 2017, 342, 546-552.

260. A. Ahmadian Yazdi, R. Priete, R.D. Milton, D. P. Hickey, S.D. Minteer, and J. Xu, “Rechargeable membraneless glucose biobattery: Towards solid-state cathodes for implantable enzymatic devices,” Journal of Power Sources, 2017, 343, 103-108.

261. R.D. Milton, R. Cai, S. Abdellaoui, D. Leech, A.L. De Lacey, M. Pita, and S.D. Minteer, “Bioelectrochemical Haber-Bosch Process: An Ammonia-Producing H2/N2 Fuel Cell,” Angewandte Chemie, 2017, 56(10), 2680-2683.

262. C. Serov, D.P. Hickey, M. Cook, S. Robinson, S. Barnett, S.D. Minteer, M.S. Sigman, and M. Sanford, “A Physical Organic Approach to Persistent, Cyclable, Low-Potential Electrolytes for Flow Battery Applications,” Journal of the American Chemical Society, 2017, 139, 2924-2927.

263. K. Hasan, R. Milton, M. Grattieri, T. Wang, M. Stephanz, and S.D. Minteer, “Photobioelectrocatalysis of Intact Chloroplasts for Solar Energy Conversion,” ACS Catalysis, 2017, 7, 2257-2265.

264. J. Kitt, D. Bryce, S.D. Minteer, and J.M. Harris, “Raman Spectroscopy Reveals Selective Interactions of Cytochrome c with Cardiolipin that Correlate with Membrane Permeability,” Journal of the American Chemical Society, 139(10), 3851-3860.

265. K. Knoche, K. Hasan, E. Aoyama, and S.D. Minteer, “Role of Nitrogenase and Ferredoxin in the Mechanism of Bioelectrocatalytic Nitrogen Fixation by the Cyanobacteria Anabaena variabilis SA-1 Mutant Immobilized on Indium Tin Oxide (ITO) Electrodes,” Electrochimica Acta, 2017, 232, 396-403.

266. M. Grattieri, N.D. Shivel, I. Sifat, M. Bestetti, and S.D. Minteer, “Sustainable Hypersaline Microbial Fuel Cells: Inexpensive Recyclable Polymer Supports for Carbon Nanotube Conductive Paint Anodes,” ChemSusChem, 2017, 10, 2053-2058.

267. Y. Liu, D.P. Hickey, J.Y. Guo, E. Earl, S. Abdellaoui, R. Milton, M.S. Sigman, S.D. Minteer, and S. Calabrese Barton, “Substrate Channeling in an Artificial Metabolon: A Molecular Dynamics Blueprint for an Experimental Peptide Bridge,” ACS Catalysis, 2017, 7, 2486-93.

268. S. Abdellaoui, M. Snow, I. Matanovic, A. Stephens, P. Atanassov, and S.D. Minteer, “Hybrid Molecular/Enzymatic Catalytic Cascade for Complete Electro-oxidation of Glycerol Using a Promiscuous NAD-dependent Formate Dehydrogenase from Candida boidinii,” ChemComm, 2017, 53, 5368 - 5371.

269. L. Xia, K. Nguyen, Y. Holade, H. Han, K. Dooley, P. Atanassov, S. Banta, and S.D. Minteer, “Improving the Performance of Methanol Biofuel Cells Utilizing an Enzyme Cascade Bioanode with DNA Bridged Substrate Channeling,” ACS Energy Letters, 2017, 2, 1435-1438.

270. R.D. Milton and S.D. Minteer, “Direct Enzymatic Bioelectrocatalysis: Differentiating Between Myth and Reality,” Journal of the Royal Society Interface, 2017, 14, 20170253.

271. R.D. Milton, R. Cai, S. Sahin, S. Abdellaoui, B. Alkotaini, D. Leech, and S.D. Minteer, “The In Vivo Potential-Regulated Protective Protein of Nitrogenase in Azotobacter vinelandii Supports Aerobic Bioelectrochemical Dinitro-gen Reduction In Vitro,” Journal of the American Chemical Society, 2017, 139, 9044-9052.

Last Updated: 7/17/17