Nanoporous LiFePO 4 /C composite cathodes have been synthesized by a novel one-pot, glycine-assisted combustion (GAC) method in presence of 2wt.% Super P carbon in both Ar and 90% Ar–10% H 2 atmospheres at 750°C for a short time of 6h. While the Ar atmosphere offers phase pure samples, the Ar–H 2 atmosphere leads to the formation of impurity phases as indicated by X-ray diffraction data. The combustion-initiated expulsion of gases aids the formation of a nanoporous LiFePO 4 /C composite structure as evident from electron microscopic analysis, which could allow easy penetration of the electrolyte and realization of an electronic–ionic 3D network. The nanoporous LiFePO 4 /C sample synthesized in Ar atmosphere exhibits a high discharge capacity of 160mAhg −1 with 3% capacity fade in 50 cycles and high rate capability. With a short reaction time, the GAC method offers an energy efficient approach to synthesize high performance olivine LiFePO 4 /C composite cathodes.