High-Power Lithium-Ion Capacitor using LiMnBO3-Nanobead Anode and Polyaniline-Nanofiber Cathode with Excellent Cycle Life

LiMnBO3 nanobeads (LMB‐NB) with uniform size and distribution were synthesized using a urea‐assisted microwave/solvothermal method. The potential application of LMB‐NBs as an anode for a lithium‐ion hybrid capacitor (Li‐AHC) was tested with a polyaniline‐nanofiber (PANI‐NF) cathode in a nonaqueous LiPF6 (1 M)–ethylene carbonate/dimethyl carbonate electrolyte. Cyclic voltammetry (CV) and charge–discharge (C/DC) studies revealed that the PANI‐NF/LMB‐NB cell showed an exceptional capacitance behavior between 0–3 V along with a prolonged cycle life. A discharge capacitance of about 125 F g−1, and energy and power densities of about 42 Wh kg−1 and 1500 W kg−1, respectively, could be obtained at a current density of 1 A g−1; those Li‐AHC values are higher relative to cells containing various lithium intercalation materials in nonaqueous electrolytes. In addition, the PANI‐NF/LMB‐NB cell also had an outstanding rate performance with a capacitance of 54 F g−1 and a power density of 3250 W kg−1 at a current density of 2.25 A g−1 and maintained 94 % of its initial value after 30 000 cycles. This improved capacitive performance with an excellent electrochemical stability could be the result of the morphological features and inherent conductive nature of the electroactive species. Super performer: A high‐performance lithium‐ion capacitor (LIC) is fabricated using a LiMnBO3‐nanobead anode and a polyaniline‐nanofiber cathode in an organic electrolyte. The LIC cell showed superior rate performance investigation relative to other LICs constructed by anodes of various lithium intercalation materials and activated carbon cathodes.