1. G. Gourdin, P.H. Smith, T. Jiang, T. N. Tran, D.Y Qu, “In-situ Electrochemical – Mass Spectroscopic Investigation of Solid Electrolyte Interphase Formation on the Surface of a Carbon Electrode”, Electrochimica Acta 112(2013)735, Impact Factor:4.088. Citation:
  2. Q. Wang, X.Q. Yang, D.Y. Qu, “In-situ ESR Spectro-electrochemical investigation of the Superoxide Anion Radical During the Electrochemical O2 Reduction Reaction in Aprotic Electrolyte”, Carbon, 61(2013)336-341. Impact Factor:5.378. Citation:
  3. D. Zheng, Q. Wang, H-S Lee, X.Q. Yang, D.Y.Qu, “Catalytic Disproportionation of the Superoxide Intermediate from the Electrochemical O2 Reduction in Non-aqueous Electrolytes”, Chem. EUJ-J. 19(2013)8679-8683. Impact Factor:5.925. Citation:
  4. J. Collins, T. Ngo, D.Y. Qu, M. Foster, “Localized molecular orientation via surface oxygen group manipulation of a granulated activated carbon using sequential, low concentration nitric acid treatments”, Carbon 57(2013)174-183, Impact Factor:5.378. Citation:
  5. L.L. Wang, D. Zheng, D.Y. Qu, L. Xiao, Deyu Qu, “Engineering Aspects of the Hybrid Supercapacitor with H-insertion Electrode”, J. Power Sources, 230(2013)66-69. Impact Factor:4.905. Citation:
  6. D. Zheng, H-S Lee, X.Q. Yang, D.Y. Qu, “Electrochemical Oxidation of Solid Li2O2 in Non-aqueous Electrolyte Using Peroxide Complexing Additives for Lithium-Air Batteries”, Electrochem. Commun. 28(2013)17-19. Impact Factor:4.859. Citation:
  7. G. Gourdin, P. Smith, T. Jiang, T. Tran, D.Y. Qu “Lithiation of Amorphous Carbon Negative Electrode for Li Ion Capacitor”, J Electroanal. Chem. 688(2013)103-112. Impact Factor:2.905. Citation:
  8. G. Gourdin, T. Jiang, P. Smith, D.Y. Qu, “The Effects of Cell Assembly Compression on the Performance of Carbon EDLC Electrodes”, J Power Sources 215(2012)179-187 Impact Factor:4.905. Citation:
  9. D.Y. Qu, P. Smith, G. Gourdin, T. Jiang, T. Tran, “A Hydrogen-Insertion Asymmetric Supercapacitor” Chem-EUR. J. 18(2012)3141 Impact Factor:5.925 Citation:
  10. D. Zheng, X.Q. Yang, D.Y. Qu “High Rate Oxygen Reduction Cathode in the Mixed Non-aqueous Electrolyte Containing Acetonitrile” Chem-Asian J, 6(20113306. Citation:
  11. Y.Wang, D. Zheng, X.Q. Yang, D.Y. Qu “High Rate Oxygen Reduction in Non-aqueous Electrolyte with the Addition of Perfluorinated Additives” Energy & Environmental Science, 4(2011)3697-3702. Citation:
  12. C. Felice, D.Y. Qu “Optimization of the Synthesis of Nafion-montmorillonite Nanocomposite Membranes for Fuel Cell Applications Through Statistical Design-of-Experiment” Ind. Eng. Chem. Res, 50(2011)3697-3702. Citation:
  13. C. Tran, J. Kafle, X.Q. Yang, D.Y. Qu, “Increased discharge capacity of a Li-air activated carbon cathode produced by preventing carbon surface passivation” Carbon, accepted for publication. Citation:
  14. J. Kafle, D.Y.Qu , “The enhancement of hydrogen insertion into carbon inter-layer by surface catalytic poisoning”, J. Phys. Chem. C 114(2010)19108-19115 Citation:
  15. G. Gourdin, A. Meehan, T. Jiang, P. Smith, D.Y.Qu , “Investigation of the Impact of Stacking Pressure on a Double-Layer Supercapacitor”, J. Power Source 196(2011)523-529 Citation:
  16. N. Ominde, N. Bartlett, X.Q. Yang, D.Y. Qu, “Investigation of the oxygen reduction reaction on the carbon electrode loaded with MnO2 catalyst”, J. Power Sources 195(2010)3984-3989 Citation:
  17. C. Felice, D.Y. Qu, “Nafion-Montmorillonite nanocomposite membrane fro the effective reduction of fuel crossover”, Ind. Eng. Chem. Res. 49(2010)1514 Citation: Citation:
  18. C.Tran, X.Q. Yang, D.Y. Qu, “Investigation of the gas-diffusion-electrode used as lithium/air cathode in non-aqueous electrolyte and the importance of carbon material porosity”, J. Power Sources 195(2010))2057. Citation:5
  19. D.Y. Qu, “Mechanistic studies for the limitation of supercapacitor voltage”, J. Appl. Electrochem 39(2009)867. Citation:1
  20. N. Ominde, N. Barlett, X-Q Yang,D.Y. Qu, “The effect of oxygen reduction on activated carbon electrodes loaded with manganese dioxide catalyst”, J. Power Sources 185(2008)747-753. Citation: 8
  21. D.Y. Qu, “Mechanism for Electrochemical Hydrogen Insertion in Carbonaceous Materials”, J. Power Sources 179(2008)310-318 Citation: Citation: 5
  22. D.Y. Qu, “Investigation of hydrogen physisorption active sites on the surface of porous carbonaceous materials”, Chem-EURJ. 14(2008)1040 Citation: 6
  23. D.Y. Qu, “Investigation of Oxygen Reduction on Activated Carbon Electrodes in Alkaline Solution”, Carbon 45(2007)1296-1301 Citation: 11
  24. D.Y. Qu, “The Cause of the Voltage “Dip” During the High Rate Discharge of the Primary Alkaline MnO2 /Zn Cells”, Electrochemical Communications 8(2006)1527. Citation: 1
  25. D.Y. Qu, “Behaviors of Dinonylphenol Phosphete Ester and Its Influence to the Oxidation of Zn Anode in Alkaline Solution”, Journal of Power Sources 162(2006)706. Citation:
  26. D.Y. Qu, “Investigation of the porosity of Electrolytic Manganese Dioxide and its Performance as Alkaline Cathode Material”, Journal of Power Sources, 156(2006)692-699. Citation: 8
  27. D.Y. Qu, Donald Diehl, B. E. Conway, W. G. Pell and S. Y. Qian, “Investigation of high Capacity Primary Alkaline Manganese Dioxide /Zinc Cells consisting Bi doped MnO2”, J. App. Electrochem., 35(2005)1111-1120. Citation: 2
  28. D.Y. Qu, “Activated Carbon Used in Double-layer Supercapacitors”, In T. Troung, F Mondragon Ed. “Molecular Carbon Chemistry” Marcel Dkker, Inc. New York, To be published.
  29. D.Y. Qu, “The Study of the Proton Diffusion Process in the porous MnO2 Electrode”, Electrochimica Acta, 49(2004)657-665. Citation: 7
  30. D.Y. Qu, “Application of a.c. Impedance Technique to the Study of the Proton Diffusion Process in the Porous MnO2 Electrode”, Electrochimica Acta, 48(2003)1675-1684. Citation: 16
  31. D.Y. Qu, “Studies of the Activated Carbon Used in Double-layer Supercapacitors”, J Power Sources, 109(2002)403-411. Citation: 84
  32. D.Y. Qu, “The a.c. Impedance Studies for Porous MnO2 Cathode by means of Modified Transmission Line Model”, J Power Sources, 102(2001)270-276. Citation: 11
  33. D.Y. Qu, “The Feasibility of Using a Rechargeable MnO22 Cathode with a Metal Hydride Anode”, J. App. Electrochem., 29(1999)511-520. Citation: 11
  34. D.Y.Qu and H Shi, “Studies of Activated Carbon Used in Double-Layer Capacitors”, J. Power Sources, 74(1998)99-107. Citation: 301
  35. B.E. Conway, D.Y. Qu, L. Bai, W.A. Adams, G. Choudhary and J.McBreen “Rechargeable Manganese Oxide for Battery Application”, In: D. Scherson Ed., The Science of Adcvance Batteries 1995, P226.
  36. D.Y.Qu, B.E. Conway, L. Bai, Y.H. Zhou and W.A Adams “Role of Dissolution of Mn(III) Species in Discharge and Recharge of Chemically-Modified MnO2 Battery Cathode Materials”. J. App. Electrochem. 23 (1993)693-706. Citation: 43
  37. L. Bai, D.Y. Qu, B.E. Conway, Y.H. Zhou, G. Chowdury and W.A. Adams “Rechargeability of a Chemically-Modified MnO2/Zn Battery System at Practically Favourable Power Levels” J. Electrochem. Soc. 140(1993)884-889. Citation: 40
  38. D.Y. Qu, L. Bai, B.E. Conway and W.A. Adams “Spectro-Electrochemistry Studies on Production and Role of Soluble Mn(III) Species in Discharge and recharge of Various MnO2 Cathodic Materials” J. Electroanal. Chem. 365(1994)247-259. Citation: 9
  39. B.E. Conway, D.Y. Qu and J. McBreen “In-situ and Ex-situ Spectroelectrochemical and X-ray Absorption Studies on Rechargeable, Chemically- Modified and Other MnO2 Materials”, In: C Melendrez, T. Tadjeddine, Ed. Synchrotron Techniques in Interfacial Electrochemistry, Kluwer Academic, New York, 1994, pp311.
  40. C.X. Wang, D.Q. Wu, D.Y. Qu, S.S Qu, G.L. Zou and L. Cheng “Thermochemical Studies On Enzymes (I) Thermokinetics of the Arginase-Catalyzed Hydrolysis of L-Arginine Hydrochloride”, Acta Biophysica Sinica 4(1988) (chinese).
  41. D.Y. Qu “Applied Problems in Physical Chemistry”, University Chemistry, 2(1987) (chinese).
  42. D.Y. Qu “Applied Problems in Physical Chemistry”, University Chemistry, 2(1987) (chinese).