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Nanoporous NiF 2 for energy storage

Nanoporous NiF 2 for energy storage. Yang Yang and James M. Tour Department of Chemistry, Smalley Institute for Nanoscale Science and Technology, Rice University http://www.jmtour.com/ yymater@gmail.com and tour@rice.edu. Device fabrication process. (iv) anodization

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Nanoporous NiF 2 for energy storage

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  1. Nanoporous NiF2 for energy storage Yang Yang and James M. Tour Department of Chemistry, Smalley Institute for Nanoscale Science and Technology, Rice University http://www.jmtour.com/ yymater@gmail.com and tour@rice.edu

  2. Device fabrication process (iv) anodization to form porous layer (i) plasma treatment (ii) sputter Cr/Au (iii) electrodeposit metal layer (v) preparation of solid electrolyte (vi) supercapacitor device assembly (vii) ready for testing

  3. a b c

  4. b a d 200 nm 200 nm ~ 900 nm d110 = 0.32 nm 200 nm c

  5. b a d c

  6. Proposed charge storage mechanism : NiF2 + 2OH- Ni(OH)2 + 2F- Ni(OH)2 + OH-NiOOH + H2O + e- Double layer capacitor: 0.29 mF cm-2 (3.2 F cm-3 or 1.57 F g-1), energy density of 0.6 Wh kg-1 and power density of 8 kW kg-1Pseudocapacitor: 66 mF cm-2 (733 F cm-3 or 358 F g-1), energy density of 384 Wh kg-1 and power density of 112 kW kg-1

  7. Advantages of nanoporous NiF2 Wide operation potential window – high energy density Long term stability – reliable performance Li-free, battery-like supercapacitors – works easily Can be used for Ni-Cd and Ni-MH batteries Easy fabrication – only needs a power source Can be grown on any substrates, any shapes, any sizes

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