Archivio Istituzionale della RicercaAn easy, quick and low cost hydrothermal synthesis was developed to prepare high surface area phospho-olivine LiFePO4 powders to be used as cathodematerial for Li-ion batteries. The samples were prepared in double distilled water starting fromcommercial LiOH, FeSO4,H3PO4 and using solutionswith different concentrations of a surfactant compound (CTAB), in order to increase the specific surface areas, obtaining powderswith very small grain size. The structural, morphological and electrochemical properties were investigated by means of X-ray powder diffraction (XRPD), ICP-AES, BET method, scanning electron microscopy (SEM) and constant current charge–discharge cycling. The electrochemical performances of LiFePO4 prepared in this manner showed to be positively affected by the presence of CTAB during synthesis, showing capacities near the theoretical value, only slightly affected by the discharge regime (from C/20 to 10C).
Hydrothermal synthesis of high surface LiFePO4 powders as cathode for Li-ion cells / Meligrana, Giuseppina; Gerbaldi, Claudio; A., Tuel; Bodoardo, Silvia; Penazzi, Nerino. - In: JOURNAL OF POWER SOURCES. - ISSN 0378-7753. - ELETTRONICO. - 160:(2006), pp. 516-522. [10.1016/j.jpowsour.2005.12.067]
Hydrothermal synthesis of high surface LiFePO4 powders as cathode for Li-ion cells
MELIGRANA, Giuseppina;GERBALDI, CLAUDIO;BODOARDO, SILVIA;PENAZZI, NERINO
2006
Abstract
An easy, quick and low cost hydrothermal synthesis was developed to prepare high surface area phospho-olivine LiFePO4 powders to be used as cathodematerial for Li-ion batteries. The samples were prepared in double distilled water starting fromcommercial LiOH, FeSO4,H3PO4 and using solutionswith different concentrations of a surfactant compound (CTAB), in order to increase the specific surface areas, obtaining powderswith very small grain size. The structural, morphological and electrochemical properties were investigated by means of X-ray powder diffraction (XRPD), ICP-AES, BET method, scanning electron microscopy (SEM) and constant current charge–discharge cycling. The electrochemical performances of LiFePO4 prepared in this manner showed to be positively affected by the presence of CTAB during synthesis, showing capacities near the theoretical value, only slightly affected by the discharge regime (from C/20 to 10C).
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https://hdl.handle.net/11583/1542796