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Lithium orthophosphate

Lithium orthophosphates are unimportant and differ from the other alkali metal phosphates in being insoluble. At least 10 crystalline hydrated or anhydrous sodium orthophosphates are known and these can be grouped into three series ... [Pg.523]

DIENES Dichloromalcic anhydride. DITERPENES Palladium catalysts. OLEFINS Cuprous chloride. Lithium di-phenylphosphide. Lithium orthophosphate. Potassium r-butoxide. Thiophe-nol-Azobuty toni tide. OXASPIROPENTANE Lithium iodide. [Pg.585]

Lithium orthophosphate, Li3P04, is precipitated when sodium phosphate is added to an alkaline solution of a lithium salt. Phosphates of the other metals are soluble. [Pg.253]

DABCO). 1,5-Diazabicy do [5,4,0 ] undec-ene-5 (DBU). Diethylamine. Ethylene-diamine. Lithio propylidene-f-buty limine. Lithium bis(trimethylsilyl)amide. Lithium f-butoxide. Lithium diethylamide. Lithium diisopropylamide. Lithium N-isopro-pylcyclohexylamide. Lithium orthophosphate. Lithium 2,2,6,6-tetramethylpiper-ide. Lithium triethylcarboxide. 1,2,2,6,6-Pentamethylpiperidine. Piperazine. Potassium f-butoxide. Potassium hexamethyldi-silaznae. Potassium hydride. Potassium hydroxide. Pyridine. 4-Pyrrolidopyridine. Quinuclidine. Sodium ethoxide. Sodium methoxide. Sodium thioethoxide. Tetra-methylguanidine. Thallous ethoxide. Tri-ethylamine. [Pg.295]

The lithium orthophosphate LiFeo.8Mno.2PO4 is a naturally occurring mineral. It orders antiferromagnetically at low temperature, and the spectrum at 4-2 K indicates a magnetic field of 129 kG, e qQ/1 — +2-71 mm s and r = 0-8, with the magnetic and electric field gradient axes collinear [57]. Temperature-dependence data have not been published. [Pg.138]

Lithium orthophosphate, Li3P04, has recently become of interest in connection with its electrical properties (Section 12.19). It is reported [9] to exist in three (possibly four) different forms ... [Pg.191]

Rissouli K, Benkhouja K, Ramos-Barrado JR, Julien C (2003) Electrochemical conductivity in lithium orthophosphates. Mater Sci Eng B 98 185-189... [Pg.45]

Figure 6.11 XRD spectrum of the crystallized glass-ceramic showing the presence of cristobalite, lithium metasilicate, lithium disilicate, and lithium orthophosphate phases. Figure 6.11 XRD spectrum of the crystallized glass-ceramic showing the presence of cristobalite, lithium metasilicate, lithium disilicate, and lithium orthophosphate phases.
Rgure 6.12 Transmission electron micrograph showing the epitaxial growth of lithium metasilicate (LS) on a lithium orthophosphate (IP) crystal in a glass-ceramic heated through a typical thermal cyde. ... [Pg.115]

In Fig. 7.13 an analysis of the polymerization of dibasic lithium orthophosphate, LiH2P04, to lithium polyphosphate, LiP03, is given. The polymerization occurs with evolution of water, as shown in the chemical equations, and is thus amenable to thermogravimetry. Although the reaction looks simple, it turns out to be quite involved and to analyze it, thermogravimetry needs to be pushed to its limits. ... [Pg.394]

See other pages where Lithium orthophosphate is mentioned: [Pg.74]    [Pg.309]    [Pg.309]    [Pg.582]    [Pg.492]    [Pg.492]    [Pg.766]    [Pg.767]    [Pg.115]    [Pg.36]   
See also in sourсe #XX -- [ Pg.74 ]

See also in sourсe #XX -- [ Pg.309 ]

See also in sourсe #XX -- [ Pg.309 ]

See also in sourсe #XX -- [ Pg.394 ]



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Orthophosphates

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