The LiFePO_4 powder which had some spherical particles was prepared by using the spherical Li_3PO_4 as a precursor and characterized by electrochemical performance test.

% activate carbon and sintered 6 hours at 550℃ to prepare olivine LiFePO_4.

The electrochemical mechanism of LiFePO_4 as cathode material for lithium ion batteries during charging and discharging is still under debate after ten years of research.

The study of hydrophilicity and photocatalytic of carbon-doped titanium oxide(TiO_(2-x)C_x) films to visible-light prepared by gas-reaction RF sputtering;

The carbon-doped TiO2 particles via the route of synthesis of mesoporous TiO2 using dodecylamine (DDA) as a template and carbonization at different temperatures in flowing N2 were prepared.

LiFePO_4/C powders were prepared by carbothermal reduction of Li_2CO_3 with FePO_4·H_2O,which was synthesized by aqueous precipitation from solution of FeSO_4·7H_2O and NH_4H_2PO_4 with H_2O_2 as the oxidizing agent.

Microwave processing was used to synthesize LiFePO_4 and LiFePO_4/C.

The effect of C-doping on the crystal structure and light absorbing ability of TiO2 was investigated by XRD,UV-vis spectrum and electrochemistry analyses,which indicated that the doping of TiO2 expanded the light-responding scope,and increased its photocurrent intensity.

Additionally, the use of porous resin results in the carbon doping of TiO2(about 1%).