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LUREDERRA ’ s proposal of commercial compounds to be used as anode, cathode and electrolyte

LUREDERRA ’ s proposal of commercial compounds to be used as anode, cathode and electrolyte. STABLE project 1 st teleconference November 22 nd 2012. Anode (WP1). Proposed Standard materials: Lithium metal foil (0.5 mm thick) Indicative supplier Honjo Metal Co, Ltd, Japan

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LUREDERRA ’ s proposal of commercial compounds to be used as anode, cathode and electrolyte

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  1. LUREDERRA’sproposal of commercial compounds to be used as anode, cathode and electrolyte STABLEproject 1st teleconference November 22nd 2012

  2. Anode (WP1) Proposed Standard materials: Lithium metal foil (0.5 mm thick) Indicative supplier Honjo Metal Co, Ltd, Japan Lithium powder (for Task 1.2 in order to manufacture nanocomposite electrodes) As an anode collector, Co mesh can be used. Xigui Zhang et al., Int. J. Electrochem. Sci., 7 (2012) 10562-10569. Ji-Guang Zhang, Deyu Wang,Wu Xu, Jie Xiao, R.E. Williford, Journal of Power Sources, 195 (2010) 4332–4337.

  3. Anode (WP1) After the teleconference of November 22nd, LUREDERRA, based on the results of the discussion, will send a template asking each partner to define how to proceed in WP1 (send feedback before the 2nd week of December). Partners should specify the materials that they will need, identify possible collaboration among them and schedule deadlines for preparation and transfer of samples.

  4. Cathode (WP2) • Proposed Standard materials: • Carbon particles: • Ketjenblack EC 600JD • Indicative Suppliers: AkzoNobel, Spain-Nobel Polymer Chemicals Chicago, IL • Darco D-60 activated carbon • Indicative Supplier: America Notir • Super P conductive carbon black • Indicative Supplier: TIMCAL Graphite & Carbon • Catalyst: • Nano-MnOx powder (Indicative supplier: Quantum Sphere Inc., Santa Ana, CA) • Other alternatives: MnO2 in different forms, Fe3O4, CuO, CoFe2O4, Co3O4

  5. Cathode (WP2) • Proposed Standard materials: • Binder: • PTFE TE-3859 • Indicative Supplier: DuPont • PVDF Ji-Guang Zhang, Deyu Wang,Wu Xu, Jie Xiao, R.E. Williford, Journal of Power Sources, 195 (2010) 4332–4337. Aurélie Débart, Jianli Bao, Graham Armstrong, Peter G. Bruce, Journal of Power Sources, 174 (2007) 1177–1182.

  6. LUREDERRA’s contribution • LUREDERRA can synthesize and optimize the selected nanocatalyst by Flame Spray Pyrolysis (FSP) or wet techniques. • Some examples detected and which can be produced are MnO2, Fe3O4, CuO, CoFe2O4, Co3O4, or other alternatives of the type of simple and mixed oxides.

  7. Electrolyte (WP3) • Proposed Standard materials: • LITFSI in PC/EC with or without DME • LiPF6 in PC • RTILs • As a separator a glass fiber filter paper can be used. • The electrochemical cell for the assemply can be a coin cell type 2325, a Swagelok cell or a double-sided pounch cell. Ji-Guang Zhang, Deyu Wang,Wu Xu, Jie Xiao, R.E. Williford, Journal of Power Sources, 195 (2010) 4332–4337. Aurélie Débart, Jianli Bao, Graham Armstrong, Peter G. Bruce, Journal of Power Sources, 174 (2007) 1177–1182.

  8. LUREDERRA’s contribution • LUREDERRA can synthesize and optimize nanoadditives to improve the propertied of the electrolyte by Flame Spray Pyrolysis (FSP) or other wet techniques. • Nanoadditives such as alumina, silica, CeO2 or mixed oxide CeO2/ZrO2 can be produced. Jang-Soo Lee et al, Adv. Energy Mater., 1 (2011) 34–50.

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