ALBERTI, A. (1976): The crystal structure of ferrisicklerite, Li <1(Fe 3+,Mn 2+)PO 4. Acta Crystallogr. B32, 2761-2764.
ANDERSSON, A.S., KALSKA, B., HÄGGSTRÖM, L. & THOMAS, J.O. (2000): Lithium extraction/insertion in LiFePO 4: an X-ray diffraction and Mössbauer spectroscopy study. Solid State Ionics 130, 41-52.
BRAMNIK, N.N., BRAMNIK, K.G., BUHRMESTER, T., BAEHTZ, C., EHRENBERG, E. & FUESS, H. (2004): Electrochemical and structural study of LiCoPO 4-based electrodes. J Solid State Electrochem. 8, 558-564. (Pubitemid 38962125)
BROWN, I.D. (2002): The Chemical Bond in Inorganic Chemistry. Oxford University Press, New York, N.Y.
BROWN, I.D. & ALTERMATT, D. (1985): Bond-valence parameters obtained from a systematic analysis of the inorganic crystal structure database. Acta Crystallogr. B41, 244-247.
CHEN, F.W., LI, H.Q., WANG, D.H., CAI, H. & CHEN, W. (2000): New chronological evidence for Yanshanian diagenetic mineralization in China's Altay orogenic belt. Chinese Science Bull. 45, 108-114. (Pubitemid 32142101)
CHEN, G. & RICHARDSON, T.J. (2010): Thermal instability of olivine-type LiMnPO 4 cathodes. J. Power Sources 195, 1221-1224.
DENIARD, P., DULAC, A.M., ROCQUEFELTE, X., GRIGOROVA, V., LEBACQ, O., PASTUREL, A. & JOBIC, S. (2004): High potential positive materials for lithium-ion batteries: transition metal phosphates. J. Phys. Chem. Solids 65, 229-233.
EVENTOFF, W., MARTIN, R. & PEACOR, D.R. (1972): The crystal structure of heterosite. Am. Mineral. 57, 45-51.
FEHR, K.T., HOCHLEITNER, R., SCHMIDBAUER, E. & SCHNEIDER, J. (2007): Mineralogy, Mössbauer spectra and electrical conductivity of triphylite, Li(Fe 2+,Mn 2+)PO 4. Phys. Chem. Minerals 34, 485-494. (Pubitemid 47343266)
FINGER, L.W. & RAPP, G., JR. (1969): Refinement of the structure of triphylite. Carnegie Inst. Wash., Year book 68, 290-293.
FONTAN, F., HUVELIN, P., ORLIAC, M. & PERMINGEAT, F. (1976): La ferrisicklerite des pegmatites de Sidi-bou-Othmane (Jebilet, Maroc) et le groupe des minéraux à structure de triphylite. Bull. Soc. fr. Minéral. Cristallogr. 99, 274-286.
FRANSOLET, A.-M., ABRAHAM, K. & SPEETJENS, J.-M. (1985): Evolution génétique et signification des associations de phosphates de la pegmatite d'Angarf-Sud, plaine de Tazenakht, Anti-Atlas, Maroc. Bull. Minéral. 108, 551-574.
FRANSOLET, A.-M., ANTENUCCI, D., SPEETJENS, J.-M. & TARTE, P. (1984): An X-ray determinative method for the divalent cation ratio in the triphylite-lithiophilite series. Mineral. Mag. 48, 373-381.
FRANSOLET, A.-M., KELLER, P. & FONTAN, F. (1986): The phosphate mineral associations of the Tsaobismund pegmatite, Namibia. Contrib. Mineral. Petrol. 92, 502-517.
GELLER, S. & DURAND, J.L. (1960): Refinement of the structure of LiMnPO 4. Acta Crystallogr. 13, 325-331.
HATERT, F. & BURKE, E. (2008): The IMA-CNMNC dominant-constituent rule revisited and extended. Can. Mineral. 46, 717-728.
HATERT, F., OTTOLINI, L., FONTAN, F., KELLER, P., RODAROBLES, E. & FRANSOLET, A.-M. (2011b): The crystal chemistry of olivine-type phosphates. Fifth Int. Symp. on Granitic Pegmatites, PEG2011, Assoc. Geol. Argentina, ser. D, Publ. Especial 14, 103-105 (abstr.).
HATERT, F., OTTOLINI, L. & SCHMID-BEURMANN, P. (2011a): Experimental investigation of the alluaudite + triphylite assemblage, and development of the Na-in-triphylite geothermometer: applications to natural pegmatite phosphates. Contrib. Mineral. Petrol. 161, 531-546.
KANG BYOUNGWOO & CEDER, G. (2009): Battery materials for ultrafast charging and discharging. Nature 458, 190-193.
KIM SUNG-WOOK, KIM JONGSOON, GWON HYEOKJO & KANG KYOUNGWOO (2009): Phase stability study of Li 1-xMnPO 4 (0 < x < 1) cathode for Li rechargeable battery. J. Electrochem. Soc. 156, A635-A638.
LOSEY, A., RAKOVAN, J., HUGHES, J.M., FRANCIS, C.A. & DYAR, M.D. (2004): Structural variation in the lithiophilite-triphylite series and other olivine-group structures. Can. Mineral. 42, 1105-1115. (Pubitemid 39464309)
MASON, B. (1941): Minerals of the Varuträsk pegmatite. XXIII. Some iron-manganese phosphate minerals and their alteration products, with special reference to material from Varuträsk. Geol. Fören. Stockholm Förh. 63(2), 117-175.
OKADA, S., SAWA, S., EGASHIRA, M., YAMAKI, J., TABUCHI, M., KAGEYAMA, H., KONISHI, T. & YOSHINO, A. (2001): Cathode properties of phosphoolivine LiMPO 4 for lithium secondary batteries. J. Power Sources 97-98, 430-432. (Pubitemid 32631297)
OTTOLINI, L., BOTTAZZI, P. & VANNUCCI, R. (1993): Quantification of lithium, beryllium and boron in silicates by secondary ion mass spectrometry using conventional energy filtering. Anal. Chem. 65, 1960-1968.
OXFORD DIFFRACTION (2007): CrysAlis CCD and CrysAlis RED, version 1.71. Oxford Diffraction, Oxford, England.
PADHI, A.K., NANJUNDASWAMY, K.S. & GOODENOUGH, J.B. (1997): Phosphoolivines as positive materials for rechargeable lithium batteries. J. Electrochem. Soc. 144, 1188-1194. (Pubitemid 127617775)
PALACHE, C., BERMAN, H. & FRONDEL, C. (1951): The System of Mineralogy (7 th ed.). John Wiley and Sons, New York, N.Y.
PROSINI, P.P., LISI, M., ZANE, D. & PASQUALI, M. (2002): Determination of the chemical diffusion coefficient of lithium in LiFePO 4. Solid State Ionics 148, 45-51. (Pubitemid 34440757)
QUENSEL, P. (1937): Minerals of the Varuträsk pegmatite. I. The lithium-manganese phosphates. Geol. Fören. Stockholm Förh. 59, 77-96.
RAVET, N., ABOUIMRANE, A. & ARMAND, M. (2003): On the electronic conductivity of phospho-olivines as lithium storage electrodes. Nat. Mater. 2, 702.
RENNER, B. & LEHMANN, G. (1986): Correlation of angular and bond length distortion in TO 4 units in crystals. Z. Kristallogr. 175, 43-59.
RODA, E., FONTAN, F., PESQUERA, A. & VELASCO, F. (1996): The phosphate mineral association of the granitic pegmatites of the Fregeneda area (Salamanca, Spain). Mineral. Mag. 60, 767-778.
RODA, E., PESQUERA, A., FONTAN, F. & KELLER, P. (2004): Phosphate mineral associations in Cañada pegmatite (Salamanca, Spain): paragenetic relationships, chemical compositions, and implications for pegmatite evolution. Am. Mineral. 89, 110-125. (Pubitemid 38179073)
RODA-ROBLES, E., FONTAN, F., PESQUERA PÉREZ, A. & KELLER, P. (1998): The Fe-Mn phosphate associations from the Pinilla de Fermoselle pegmatite, Zamora, Spain: occurrence of kryzhanovskite and natrodufré nite. Eur. J. Mineral. 10, 155-167.
RODA-ROBLES, E., VIERA, R., PESQUERA, A. & LIMA, A. (2010): Chemical variations and significance of phosphates from the Fregeneda-Almendra pegmatite field, Central Iberian Zone (Spain and Portugal). Mineral. Petrol. 100, 24-34.
SCHALLER, T. (1912): New manganese phosphates from the gem tourmaline field of Southern California. J. Wash. Acad. Sci. 2(6), 143-145.
SHANNON, R.D. (1976): Revised effective ionic radii and systematic studies of interatomic distances in halides and chalcogenides. Acta Crystallogr. A32, 751-767.
SHELDRICK, G.M. (2008): A short history of SHELX. Acta Crystallogr. A64, 112-122.
SONG YANNING, YANG SHOUFENG, ZAVALIJ, P.Y. & WHITTING-HAM, M.S. (2002): Temperature-dependent properties of FePO 4 cathode materials. Mater. Res. Bull. 37, 1249-1257. (Pubitemid 34772425)
TAKAHASHI, M., TOBISHIMA, S., TAKEI, K. & SAKURAI, Y. (2002): Reaction behavior of LiFePO 4 as a cathode material for rechargeable lithium batteries. Solid State Ionics 148, 283-289. (Pubitemid 34545654)
WANG, X.J., ZOU, T.R., XU, J.G., YU, X.Y. & QIU, Y.Z. (1981): Study of Pegmatite Minerals of the Altai Region. Science Publishing House, Beijing, People's Republic of China (in Chinese).
WILSON, A.J.C. (1992): International Tables for X-ray Crystallography, Vol. C. Kluwer Academic Press, London, U.K.
YAKUBOVICH, O.V., SIMONOV, M.A. & BELOV, N.V. (1977): The crystal structure of a synthetic triphylite, LiFe[PO 4]. Sov. Phys. Dokl. 22, 347-350.
YANG SHOUFENG, SONG YANNING, NGALA, K., ZAVALIJ, P.Y. & WHITTINGHAM, M.S. (2003): Performance of LiFePO 4 as lithium battery cathode and comparison with manganese and vanadium oxides. J. Power Sources 119-121, 239-246.
ZHANG, A.C., WANG, R.C., HU, H., ZHANG, H., ZHU, J.C. & CHEN, X.M. (2004): Chemical evolution of Nb-Ta oxides and zircon from the Koktokay No. 3 granitic pegmatite, Altai, northwestern China. Mineral. Mag. 68, 739-756. (Pubitemid 40042706)
ZHU, J.C., WU, C.N., LIU, C.S., LI, F.C., HUANG, X.L. & ZHOU, D.S. (2000): Magmatic-hydrothermal evolution and genesis of Koktokay No. 3 rare metal pegmatite dyke, Altai, China. Geol. J. China Universities 6, 40-52 (in Chinese).