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Ohio University is open; the transformer failure that temporarily closed the West Union Street Office Center on Wednesday has been fixed. The building will reopen for business on Thursday morning.

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  1. A. Estejab, D. A. Daramola and G. G. Botte, "Mathematical Model of a Parallel Plate Ammonia Electrolyzer for Combined Wastewater Remediation and Hydrogen Production," Water Res. 77, p133 (2015)
  2. L. A. Diaz and G. G. Botte, “Mathematical modeling of ammonia electrooxidation kinetics in a Polycrystalline Pt rotating disk electrode,” Electrochim. Acta, in press (2015)
  3. A.N. Gildea, D. Wang and G.G. Botte, "One-step synthesis of self-supporting tin oxide/graphene electrodes for lithium ion batteries," J. Appl. Electrochem. 45, p217 (2015)
  4. P. Yu and G. G. Botte, “Bimetallic Platinum-Iron Nano-electrocatalyst Supported on Carbon Fibers for Coal Electrolysis,” J. Power Sources 274, p165 (2015)
  5. D. Wang, S. H. Vijapur and G. G. Botte, “Coal char derived few-layer graphene anodes for lithium ion batteries,” Photonics 1, p251 (2014)
  6. V. Vedharathinam and G.G. Botte, "Experimental Investigation of Potential Oscillations during the Electrocatalytic Oxidation of Urea on Ni Catalyst in Alkaline Medium," J. Phys. Chem. C 118, p21806 (2014)
  7. D. Wang and G.G. Botte, "In Situ X-Ray Diffraction Study of Urea Electrolysis on Nickel Catalysts," ECS Electrochem. Lett. 3, pH29 (2014)
  8. W. Yan, D. Wang, L.A. Diaz and G.G. Botte, "Nickel nanowires as effective catalysts for urea electro-oxidation," Electrochim. Acta 134, p266 (2014)
  9. R. Palaniappan, D.C. Ingram and G.G. Botte, “Hydrogen Evolution Reaction Kinetics on Electrodeposited Pt-M (M = Ir, Ru, Rh, and Ni) Cathodes for Ammonia Electrolysis,”J. Electrochem. Soc. 161, E1 (2014)
  10. V. Vedharathinam and G.G. Botte, "Direct evidence of the mechanism for the electro-oxidation of urea on Ni(OH)2 catalyst in alkaline medium," Electrochim. Acta 108, p660 (2013)
  11. R. Palaniappan and G.G. Botte, "Effect of Ammonia on Pt, Ru, Rh, and Ni Cathodes During the Alkaline Hydrogen Evolution Reaction," J. Phys. Chem. C 117, p17429 (2013)
  12. S.H. Vijapur, D. Wang and G.G. Botte, "Raw Coal Derived Large Area and Transparent Graphene Films," ECS Solid State Lett. 2, pM45 (2013)
  13. D.A. Daramola and G.G. Botte, "Theoretical Study of Ammonia Oxidation on Platinum Clusters - Adsorption of Intermediate Nitrogen Dimer Molecules" J. Colloid Interface Sci. 402, p204  (2013)
  14. L.A. Diaz, A. Valenzuela-Muniz, M. Muthuvel and G.G. Botte, "Analysis of Ammonia Electro-oxidation Kinetics Using a Rotating Disk Electrode," Electrochim. Acta 89, p413 (2013)
  15. D. Wang, W. Yan, S.H. Vijapur and G.G. Botte, "Electrochemically reduced graphene oxide-nickel nanocomposites for urea electrolysis," Electrochim. Acta 89, p732 (2013)
  16. S.H. Vijapur, D. Wang and G.G. Botte, "The growth of transparent amorphous carbon thin films from coal," Carbon 54, p22 (2013)
  17. R. Palaniappan and G.G. Botte, "Efficacy of Potassium Poly(Acrylate) Gel Electrolyte as a Substitute to Aqueous Electrolytes for Alkaline Ammonia Electrolysis," Electrochim. Acta 88, p772 (2013)
  18. A.T. Miller, B.L. Hassler and G.G. Botte, "Rhodium electrodeposition on nickel electrodes used for urea electrolysis," J. Appl. Electrochem. 42, p925 (2012)
  19. L.A. Diaz and G.G. Botte, "Electrochemical deammonification of synthetic swine wastewater," Ind. Eng. Chem. Res. 51, p12167 (2012)
  20. W. Yan, D. Wang and G.G. Botte, "Electrochemical decomposition of urea with Ni-based catalysts," Appl. Catal. B - Environ. 127, p221 (2012)
  21. V. Vedharathinam and G.G. Botte, "Understanding the electro-catalytic oxidation mechanism of urea on nickel electrodes in alkaline medium," Electrochim. Acta 81, p292 (2012)
  22. D. Wang, W. Yan, S. Vijapur and G.G. Botte, "Enhanced electrocatalytic oxidation of urea based on nickel hydroxide nanoribbons," J. Power Sources 217, p498 (2012)
  23. D.A. Daramola and G.G. Botte, "Theoretical study of ammonia oxidation on platinum clusters – Adsorption of ammonia and water fragments," Comp. Theor. Chem. 989, p7 (2012)
  24. W. Yan, D. Wang and G.G. Botte, "Nickel and cobalt bimetallic hydroxide catalysts for urea electro-oxidation," Electrochim. Acta 61, p25 (2012)
  25. R.L. King and G.G. Botte, "Investigation of multi-metal catalysts for stable hydrogen production via urea electrolysis," J. Power Sources 196, p9579 (2011)
  26. D. Wang, W. Yan and G.G. Botte, "Exfoliated nickel hydroxide nanosheets for urea electrolysis," Electrochem. Commun. 13, p1135 (2011)
  27. R.L. King and G.G. Botte, "Hydrogen Production via Urea Electrolysis using a Gel Electrolyte," J. Power Sources 196, p2773 (2011)
  28. D.A. Daramola, D. Singh and G.G. Botte, "Dissociation Rates of Urea in the Presence of NiOOH Catalyst: A DFT Analysis," J. Phys. Chem. A 114, p11513 (2010)
  29. D.A. Daramola, M. Muthuvel and G.G. Botte, "Density Functional Theory Analysis of Raman Frequency Modes of Monoclinic Zirconium Oxide Using Gaussian Basis Sets and Isotopic Substitution," J. Phys. Chem. B 114, p9323 (2010)
  30. X. Jin and G.G. Botte, "Understanding the kinetics of coal electrolysis at intermediate temperatures," J. Power Sources 195, p4935 (2010)
  31. B.K. Boggs and G.G. Botte, "Optimization of Pt-Ir on carbon fiber paper for the electro-oxidation of ammonia in alkaline media," Electrochim. Acta 55, p5287 (2010)
  32. X. Jin and G.G. Botte, "Electrochemical technique to measure Fe(II) and Fe(III) concentrations simultaneously," J. Appl. Electrochem. 39, p1709 (2009)
  33. B.K. Boggs, R.L. King and G.G. Botte, "Urea electrolysis: direct hydrogen production from urine," Chem. Commun. p4859 (2009)
  34. B.K. Boggs and G.G. Botte, "On-board hydrogen storage and production: An application of ammonia electrolysis," J. Power Sources 192, p573 (2009)
  35. E.P. Bonnin, E.J. Biddinger and G.G. Botte, "Effect of catalyst on electrolysis of ammonia effluents," J. Power Sources 182, p284 (2008)
  36. X. Jin and G.G. Botte, "Feasibility of hydrogen production from coal electrolysis at intermediate temperatures," J. Power Sources 171, p826 (2007)
  37. Y. DeAbreu, P. Patil, A. Marquez and G. G. Botte, "Characterization of electrooxidized Pittsburgh No. 8 Coal," Fuel 86, p573 (2007)
  38. A. Marquez, Y. DeAbreu, G. G. Botte, "Theoretical Investigations of NiYSZ in the Presence of H2S," Electrochem. Solid-State Lett. 9, pA163 (2006)
  39. M. Cooper and G. G. Botte, "Hydrogen Production from the Electro-oxidation of Ammonia Catalyzed by Platinum and Rhodium on Raney Nickel Substrate," J. Electrochem. Soc. 153, pA1894 (2006)
  40. N. Sathe and G.G. Botte, "Assessment of coal and graphite electrolytes on carbon fiber electrodes," J. Power Sources 161, p513 (2006)
  41. M. Cooper and G. G. Botte, "Optimization of the electrodeposition of Raney nickel on titanium substrate," J. Mater. Sci. 41, p5608 (2006)
  42. P. Patil, Y. DeAbreu, G. G. Botte, "Electrooxidation of coal slurries on different electrode materials," J. Power Sources 158, p368 (2006)
  43. F. Vitse, M. Cooper and G.G. Botte, "On the use of ammonia electrolysis for hydrogen production" J. Power Sources 142, p18 (2005)