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W2078996900 endingPage "117" @default.
W2078996900 startingPage "106" @default.
W2078996900 abstract "Since transition metal phospho olivines gain increasing interest as cathode materials for lithium ion batteries in the last decades lots of publications appeared. Various synthesis methods were in the focus of interest as well as structural investigations of the pure LiMPO4 and mixed Li (MM′)PO4 phases (M, M′ = Fe, Mn, Co, Ni, Mg, Zn, Al) and their structural changes during electrochemical conversion. Lithium insertion and exsertion mechanisms have been studied with the help of e.g. structural, optical and electronic, and electrochemical characterisation methods. Likewise many efforts have been done for material optimisation concerning synthesis procedure or substitution. We tend to give an overview about Li (MM′Mn)PO4 (M, M′ = Mg, Fe, Co) on the basis of our results. For the greater topic of enhancement of performance and energy density of LiMnPO4 we discuss different solution approaches concerning the raise of specific capacity, redox potential and optimisation of material characteristics. Thus we consider effects due to the intrinsic conductivity, structural stability of the charged phase as well as its chemical stability against the electrolyte and the dynamic stability of the interface between charged phase and discharged phase during electrochemical conversion. For this purpose in our experimental part we focus on three different approaches: substitution with an electrochemically active transition metal, substitution with an electrochemically inactive metal in case for the manipulation of unit cell volume alternation and the substitution with electrochemically inactive metals for the purpose of providing a “lithium reservoir”. This generated “lithium reservoir” is expected to be accessible for the utilisation of a new redox step. Phase transition in mixed transition metal phospho olivines Li(MnCo)PO4 has been investigated as example for the effect of substitution with an electrochemically active transition metal. Substitution with an electrochemically inactive metal leading to binary Li(MgMn)PO4 has been structurally and electrochemically investigated. Promising new electrochemical characteristics of binary Li(MgMn)PO4 phospho olivines are introduced for the first time. When charged to high potentials (>4.9 V) the activation of the Mn3+/Mn4+ step is reported." @default.
W2078996900 created "2016-06-24" @default.
W2078996900 creator A5037169142 @default.
W2078996900 creator A5038730354 @default.
W2078996900 creator A5062636366 @default.
W2078996900 creator A5069163253 @default.
W2078996900 date "2014-12-01" @default.
W2078996900 modified "2023-10-14" @default.
W2078996900 title "Substituted transition metal phospho olivines LiMM′PO4 (M = Mn, M′ = Fe, Co, Mg): Optimisation routes for LiMnPO4" @default.
W2078996900 cites W1496481655 @default.
W2078996900 cites W1513781170 @default.
W2078996900 cites W1514721020 @default.
W2078996900 cites W1609269562 @default.
W2078996900 cites W1662595031 @default.
W2078996900 cites W1778797920 @default.
W2078996900 cites W1949231392 @default.
W2078996900 cites W1966828953 @default.
W2078996900 cites W1968128790 @default.
W2078996900 cites W1968890752 @default.
W2078996900 cites W1968929498 @default.
W2078996900 cites W1974447796 @default.
W2078996900 cites W1974503085 @default.
W2078996900 cites W1977916557 @default.
W2078996900 cites W1986709750 @default.
W2078996900 cites W1986994441 @default.
W2078996900 cites W1989527619 @default.
W2078996900 cites W1990554592 @default.
W2078996900 cites W1993498940 @default.
W2078996900 cites W1993645851 @default.
W2078996900 cites W1993767147 @default.
W2078996900 cites W1998034414 @default.
W2078996900 cites W1998062017 @default.
W2078996900 cites W1998260442 @default.
W2078996900 cites W1999836122 @default.
W2078996900 cites W2005140594 @default.
W2078996900 cites W2009930960 @default.
W2078996900 cites W2012995907 @default.
W2078996900 cites W2018347463 @default.
W2078996900 cites W2018506624 @default.
W2078996900 cites W2019111258 @default.
W2078996900 cites W2019418666 @default.
W2078996900 cites W2022292911 @default.
W2078996900 cites W2023842679 @default.
W2078996900 cites W2024565483 @default.
W2078996900 cites W2026617639 @default.
W2078996900 cites W2030381488 @default.
W2078996900 cites W2032660527 @default.
W2078996900 cites W2032705911 @default.
W2078996900 cites W2033315678 @default.
W2078996900 cites W2035878607 @default.
W2078996900 cites W2038807397 @default.
W2078996900 cites W2043850198 @default.
W2078996900 cites W2050721587 @default.
W2078996900 cites W2051492471 @default.
W2078996900 cites W2057318252 @default.
W2078996900 cites W2057601775 @default.
W2078996900 cites W2058927382 @default.
W2078996900 cites W2059797546 @default.
W2078996900 cites W2060142904 @default.
W2078996900 cites W2061684513 @default.
W2078996900 cites W2062940337 @default.
W2078996900 cites W2068490926 @default.
W2078996900 cites W2068644783 @default.
W2078996900 cites W2072430054 @default.
W2078996900 cites W2075793040 @default.
W2078996900 cites W2077151285 @default.
W2078996900 cites W2077635434 @default.
W2078996900 cites W2084393974 @default.
W2078996900 cites W2087778414 @default.
W2078996900 cites W2088519148 @default.
W2078996900 cites W2089060639 @default.
W2078996900 cites W2090501201 @default.
W2078996900 cites W2092114411 @default.
W2078996900 cites W2093419270 @default.
W2078996900 cites W2094357218 @default.
W2078996900 cites W2096370882 @default.
W2078996900 cites W2097535432 @default.
W2078996900 cites W2104375452 @default.
W2078996900 cites W2105826995 @default.
W2078996900 cites W2106727013 @default.
W2078996900 cites W2107537315 @default.
W2078996900 cites W2110385225 @default.
W2078996900 cites W2114131781 @default.
W2078996900 cites W2116918070 @default.
W2078996900 cites W2118705722 @default.
W2078996900 cites W2127042281 @default.
W2078996900 cites W2127941413 @default.
W2078996900 cites W2130836970 @default.
W2078996900 cites W2130893993 @default.
W2078996900 cites W2132221912 @default.
W2078996900 cites W2134711156 @default.
W2078996900 cites W2135561581 @default.
W2078996900 cites W2136822440 @default.
W2078996900 cites W2151862304 @default.
W2078996900 cites W2152510783 @default.
W2078996900 cites W2154232712 @default.
W2078996900 cites W2158523871 @default.
W2078996900 cites W2171874342 @default.