Voice: 972-3-6408438,6414126
Fax: 972-3-6409293
Building: Ornstein
Room: 325

More information about the Peled group...

  • Electrochemistry of Lithium Batteries and Fuel Cells

  • Intercalation process of lithium in carbon and graphite in liquid nonaquous solutions and polymer electrolytes.

  • Preparation and characterization of high capacity carbons to be used as an anode in Lithium-Ion batteries.

  • Modification and characterization of graphite for advanced anode in Lithium-Ion batteries.

  • Study of mass and charge transport in composite polymer electrolytes.

  • Development of high energy density bipolar Li/composite polymer electrolyte/FeS2 battery for electric vehicle applications.

  • Study of polymer electrolyte membrane (PEM) fuel cells

  • Development and characterization of proton conducting membranes.

  • Characterization of batteries and fuel cells materials with the use of: BET, SS-NMR, XRD, SAX, SEM, EDS, XPS, DSC, TGA

  • Development and characterization of high capacity nano particles lithium alloy for anodes in lithium ion batteriesies

  • Study of direct methanol fuel cell (DMFC)

  • Study of of new fuels for direct oxidation fuel cells (DOFC)

E. Peled, "The Electrochemical Behavior of Alkali and Alkaline Earth Metals in Nonaqueous  Battery Systems -The Solid Electrolyte Interphase Model", J. Electrochem. Soc. 126, 2047-2051 (1979).

A. Meitav and E. Peled, "Solid Electrolyte Interphase (SEI) Electrode Part V: The Formation and Properties  of the Solid Electrolyte Interphase on Calcium in Thionyl-Chloride Solutions", Electrochemica Acta 33, 1111-1121 (1988).

I. Reshef, M. Yahel and E. Peled, "Militarized Version of State-of-Charge Meter for Li-SO2 Batteries", Proceedings of 34th Power Sources Symposium, IEEE 47-49 (1990).

G. Negasuramanian, E. Peled, A.I. Attia and G. Halpert, "Composite Solid Electrolyte for Li Battery Applications", Solid State Ionics 67, 51-56 (1993).

E. Peled, D. Golodnitsky, G. Ardel, C. Menachem. D. Bar-Tow and V. Eshkenazy, "The Role of the SEI in Lithium and Lithium Ion Batteries. Materials for Electrochemical Energy Storage and Conversion-Batteries, Capacitors and Fuel Cells",  D.  H.  Doughty, Vol. 1995, 393, 209 (1995).

Y. Dai, Y. Wang, S. Bajue, S.G. Greenbaum, D. Golodnitsky, G. Ardel, E. Strauss and E.             Peled, "Electrical, Thermal and NMR Investigation on Composite Solid Electrolytes Based on PEO,  LiI and High Surface Area Inorganic Oxides", Electrochimica Acta, 10-11, 1557-1562 (1998).

Y. Dai, Y. Wang, V. Ashkenazi, E. Peled, and S.G. Greenbaum, "Lithium-7 NMR Investigation of Lithium Insertion in Hard Carbon", J. Electrochem. Soc., 145, 1179-1183 (1998).

E. Peled, T. Duvdevani and A. Melman, "A Novel Proton Conductivity Membrane (PCM)", J. Electrochem. And Solid State Letters Vol. 1(5), 210-211 (1998).

E. Strauss, D. Golodnitsky and E. Peled, "Novel Approach to Improving the Performance of the Rechargeable Lithium/Composite Polymer Electrolyte/Pyrite Battery", J. Electrochem. and Solid State Letters. 2(3), 115-117 (1999).

D. Golodnitsky and E. Peled, "Streching-Induced Conductivity Enhancement of LiI (P(EO)-Polymer Electrolyte", Electrrochemica Acta, 45, 1431-1439 (2000).

E. Peled, D. Bar Tow, A. Merson and L. Burstein, "Microphase Structure of SEI on HOPG", J. of  New Materials for Electrochemical Systems 3, 321-328 (2000).

E. Peled, T. Duvdevoni, A. Akeron and A. Melman, "A Direct Methanol Fuel Cell Based on a Novel Low-Cost Nanoporous Proton-Conducting Membrane",  J. Electrochem. and Solid State Letters, 3 (12), (2000).