We have recently reported the reversible sodium intercalation in beta-VOPO4 that has a moderate-high discharge plateau at 3.3 V vs. Na/Na+ and a theoretical capacity of 166 mAh g(-1). However, the practical applications of the cathodes are still impeded by the low electrical and ionic conductivities as seen in many metal polyanion cathodes. Herein, VOPO4/C and NaVOPO4/C composites have been prepared by ball-milling and tested in sodium ion batteries. X-ray diffraction and scanning electron microscopy confirm the phase is maintained after the ball-milling process, while the particle size is obviously reduced. Electrochemical tests show much improved capacities of 85 mAh g(-1) (similar to 0.5 Na-ions per formula) at C/20. At a higher temperature of 45 degrees C, the discharge capacities are further increased to 130 mAh g(-1) and 115 mAh g(-1) for VOPO4/C and NaVOPO4/C (-0.78 Na-ions per formula for either) along with long-term cycling. The preliminary results suggest beta-VOPO4 has the potential to exhibit good practical performance upon structural optimization. Thus, the exploration on the fabrication of nanoparticles and more efficient conductive coating will probably lead to more fruitful achievements. (C) 2018 Elsevier Ltd. All rights reserved.