Thin film nonstoichiometric chromium oxide-based cathode material for rechargeable and primary lithium batteries

The application of nonstoichiometric chromium oxide-based thin film cathodes in lithium rechargeable and primary batteries operating at high rates has been demonstrated. Films of varying composition have been obtained by anionic Cr (VI) species electrodeposition on a 1X18N10D cent grade stainless steel cathode from fluoride-containing electrolytes. The effect of film doping by Li+ ions during its electrosynthesis has been Nonsidered. As-prepared films were studied by scanning and transmission electron microscopies, 3D optical profiler, thermogravimetric analysis, chemical analysis, and X-ray diffraction (XRD). The main phase components of the electrodeposited films regardless of Li+ in an electrolyte are Cr2O3, alpha-CrOOH, beta-CrOOH, and metallic chromium as shown by XRD pattern refinement. The electrochemical reduction rate in a non-aqueous electrolyte (1 M LiClO4 in PC/DME) correlates with the chromium oxide-hydroxide component content of film. Primary CrO (x) -Li CR2325 mock-up cathode coating can be discharged in a pulsed mode at 10 Omega external resistance with 80-84 mA cm(-2) current densities for 10-100 ms. Thin film cathodes electrodeposited in the presence of lithium ions become rechargeable when the lithium content of the film reaches 0.02 wt.%. Mock-ups of CR2325 coin battery with a thin film cathode doped with lithium ions can be discharged more than 40 times with 136 mAh g(-1) specific capacity, 461 Wh kg(-1) specific energy and 154 W kg(-1) power density at 30 k Omega external resistance. The simplicity of thin film preparation makes this technology promising for thin film lithium batteries.