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Lithium solid electrolyte, primary applications

Li2S204 being the SEI component at the Li anode and the solid discharge product at the carbon cathode. The Li—SOCI2 and Li—SO2 systems have excellent operational characteristics in a temperature range from —40 to 60 °C (SOCI2) or 80 °C (SO2). Typical applications are military, security, transponder, and car electronics. Primary lithium cells have also various medical uses. The lithium—silver—vanadium oxide system finds application in heart defibrillators. The lithium—iodine system with a lithium iodide solid electrolyte is the preferred pacemaker cell. [Pg.18]

Solid electrolytes for lithium-ion batteries are expected to offer several advantages over traditional, nonaqueous liquid electrolytes. A solid electrolyte would give a longer shelf life, along with an enhancement in specific energy density. A solid electrolyte may also eliminate the need for a distinct separator material, such as the polypropylene or polyethylene microporous separators commonly used in contemporary liquid electrolyte-based batteries. Solid electrolytes are also desirable over liquid electrolytes in certain specialty applications where bulk lithium-ion batteries as weU as thin-film lithium-ion batteries are needed for primary and backup power supplies for systems, devices, and individual integrated circuit chips. [Pg.492]

If GO is used as a host lattice for Li+ in aprotic electrolytes, reversibility is improved [577]. The potential level is distinctly more positive than with donor GIC, at about —1 V vs. SHE. An all-solid-state Li/GO battery with PE0/LiC104 as solid electrolyte was reported by Mermoux and Touzain [578], but rechargeability is poor. Recently, the structure of graphite oxide was studied by its fluorination at 50-2()0 °C [579]. C-OH bonds were transformed into C-F bonds. The examples, in conjunction with Section 2, show that the formation or cleavage of covalent C-O (C-F) bonds makes the whole electrochemical process irreversible. Application was attempted in lithium primary batteries, which have a voltage of 2-2.5 V. Really reversible electrodes are only possible, however, with graphite intercalation compounds, which are characterized by weak polar bonds. [Pg.393]

Honeywell have described their work on the development of an alternative electrolyte for a multi-cell lithium-sulphur dioxide resen e battery. In developing a multi-cell lithium reserve battery, the lithium bromide-sulphur dioxide acetonitrile electrolyte system used in their primary batteries was found to be unstable when stored by itself at high temperature - a functional capability required for all resen e applications. In addition to consumption of the oxidant sulphur dioxide in reactions causing instability, some of the products of electrolyte degradation arc solid, which would cause nrajor problems in activation. Primary active cells after storage do not undergo such degradation reactions. [Pg.273]

Current research is attempting to develop a portable equipment battery that operates not at its normal operating temperature of 120°C but at room temperature. (polyethylene oxide)9LiCF3SOj electrolytes hold such promise. The y-alumina—lithium fluoride primary solid state battery has some applications in the cardiac pacemaker field. [Pg.408]


See other pages where Lithium solid electrolyte, primary applications is mentioned: [Pg.157]    [Pg.415]    [Pg.243]    [Pg.3831]    [Pg.388]    [Pg.407]    [Pg.2601]    [Pg.2620]    [Pg.319]    [Pg.388]    [Pg.330]    [Pg.17]    [Pg.106]    [Pg.66]    [Pg.185]    [Pg.522]    [Pg.6]   


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