Ultra-low cost and highly stable hydrated FePO4 anodes for aqueous sodium-ion battery

The growing demands for large-scale energy storage devices have put a spotlight on aqueous sodium-ion batteries, which possess a number of highly desirable features, such as sodium abundance, low cost and safety over organic electrolytes. While lots of cathode materials were reported, only few candidate materials like active carbon and NaTi2(PO4)(3) were proposed as anodes. It is a long-standing common knowledge that the low cost, non-toxicity, and highly reversible FePO4 center dot 2H(2)O is known as an attractive cathode material for non-aqueous lithium- and sodium-ion batteries, but we demonstrate for the first time that nano-size non-carbon coated amorphous FePO4 center dot 2H(2)O can be used as the anode for an aqueous sodium-ion battery. Its optimum operating voltage (similar to 2.75 V vs. Na+/Na) avoids hydrogen evolution. The capacity is as high as 80 mAh/g at a rate of 0.5 C in a three-electrode system. The full cell, using the Na0.44MnO2 as cathode, maintained 90% of the capacity at 300 cycles at a rate of 3 C. The calculations also show that its volume change during the intercalation of Na ions is below 2%. Its low cost, high safety, along with its outstanding electrochemical performance makes amorphous FePO4 center dot 2H(2)O a promising anode material for aqueous sodium-ion batteries.