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Discharge and charge curves for yip MnO, spinel LiMn204 and CDMO electrodes.

Discharge and charge curves of three-dimensionally ordered composite electrode system consisting of Li jjLa jjTiOj and LiCoO

Discharge and charge curves of three-dimensionally ordered macroporous carbon with controlled pore size distribution in Et NBF PC at various current densities

Discharge and charge efficiency of lithium metal in a mixed solvent of ethylene carbonate and dimethoxy ethane containing 1.0 mol dm-3 LiC104 without 100 ppm HF at 0.5 mA cm-2.

Discharge and charge profiles of rutile Ti02-carbon core-shell nanocomposite at a constant current density of 0.1 mA cm in the voltage range 1.4-2.5 V. Reprinted from Ref. 71, Copyright 2006, with permission from Elsevier.

Discharge and charge reactions at the negative plate of a lead-acid cell.

Discharge and charging curves for a sintered iron electrode at a constant current of 0.2 A where the apparent geometrical surface area is 36 cm and porosity is 65 . A and B represent the discharging and charging regions, respectively. Overall electrode reactions, midpoint potentials, and, in parentheses, theoretical potentials at pH 15 ate Al, n-Fe 2 OH Fe C,

Discharge and charging curves for a sintered iron electrode at a constant current of 0.2 A where the apparent geometrical surface area is 36 cm2 and porosity is 65 . A and B represent the discharging and charging regions, respectively. Overall electrode reactions, midpoint potentials, and, in parentheses, theoretical potentials at pH 15 are d, n-Fe 2 OH - Fe.

Discharge and return grilles on same wall

Discharge as a function of HTT

Discharge behavior of a battery where Eocv is the open circuit voltage voltage—time profile.

Discharge behavior of a battery where is the open circuit voltage voltage—time profile.

Discharge by pass arrangement. A, carrier gas inlet B, Clj inlet C, D, needle valves E, stopcock F, capillary G, rf. generator H, discharge tube J, furnace K, Ni wire L, Fe slug M, connections to flow tubes N, 9558-C photomultiplier cell O, spectrograph P, to pump Q, concave mirror R, discharge-bypass section S,931-Aphoto-multiplier cells T, filter U, W, furnace V, cold section of flow tube

Discharge capabilities of conventional graphite and SILX systems at different temperatures.

Discharge capabilities of typical cutter suction dredgers in various soil classes.

Discharge capabilities of typical trailer suction hopper dredgers in various soil classes.

Discharge capacities for he first ten cycles for the Li-ion cell SL-20 anode. The insert

Discharge capacities for he first ten cycles for the Li-ion cell SL-20 anode. The inset

Discharge capacities of LiNiCo02 MCMB lithium ion cells at -20 C with different carbonate-based electrolytes. Cells are charged at room temperature and discharged using a C 15 rate. Reproduced with permission from ref 515

Discharge capacities of LiNiCoOa MCMB lithium ion cells at —40 C with different carbonate-based electrolytes. Cells are charged at —40 C and discharged using a C 4 rate. Reproduced with permission from ref 515

Discharge capacity and coulombic efficiency of polyaniline-polystyrenesulphonate as a fiinction of cycle number for ehai gc and discharge cycling in LiC104 PC DME. , with permission of the Electrochemical Society, Inc.

Discharge capacity comparison in three developmental cell lots of the 1NCP26 72 112 model

Discharge capacity for a U Uu,Mn 04 cell using a quasi-ionic liquid electrolyte comprising a UAICVCbP N-S02CyAia3 mixture. The cell was cyded at 0.1 mA cm between 3.75 and 2V. From reference 117, reproduced by permission of The BeCtrochemical Society, Inc

Discharge capacity of 1 D size cell and arrays of 4 AA and 7 AAA size cells .

Discharge capacity of a graphite 1 M LiPFg EC DEC 2



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