- 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:
- 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:
- 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:
- 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:
- 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:
- 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:
- 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:
- 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:
- 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:
- 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:
- 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:
- 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:
- 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:
- 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:
- 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:
- 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:
- 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:
- 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
- D.Y. Qu, “Mechanistic studies for the limitation of supercapacitor voltage”, J. Appl. Electrochem 39(2009)867. Citation:1
- 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
- D.Y. Qu, “Mechanism for Electrochemical Hydrogen Insertion in Carbonaceous Materials”, J. Power Sources 179(2008)310-318 Citation: Citation: 5
- D.Y. Qu, “Investigation of hydrogen physisorption active sites on the surface of porous carbonaceous materials”, Chem-EURJ. 14(2008)1040 Citation: 6
- D.Y. Qu, “Investigation of Oxygen Reduction on Activated Carbon Electrodes in Alkaline Solution”, Carbon 45(2007)1296-1301 Citation: 11
- 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
- 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:
- 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
- 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
- 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.
- D.Y. Qu, “The Study of the Proton Diffusion Process in the porous MnO2 Electrode”, Electrochimica Acta, 49(2004)657-665. Citation: 7
- 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
- D.Y. Qu, “Studies of the Activated Carbon Used in Double-layer Supercapacitors”, J Power Sources, 109(2002)403-411. Citation: 84
- 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
- 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
- D.Y.Qu and H Shi, “Studies of Activated Carbon Used in Double-Layer Capacitors”, J. Power Sources, 74(1998)99-107. Citation: 301
- 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.
- 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
- 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
- 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
- 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.
- 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).
- D.Y. Qu “Applied Problems in Physical Chemistry”, University Chemistry, 2(1987) (chinese).
- D.Y. Qu “Applied Problems in Physical Chemistry”, University Chemistry, 2(1987) (chinese).