DGIST Scholar: Stable Supercapacity of Binder-Free TiO2(B) Epitaxial Electrodes for All-Solid-State Nanobatteries

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Stable Supercapacity of Binder-Free TiO2(B) Epitaxial Electrodes for All-Solid-State Nanobatteries

Title: Stable Supercapacity of Binder-Free TiO2(B) Epitaxial Electrodes for All-Solid-State Nanobatteries

Author(s): Kim, Dongha ; Jeon, Jingyeong ; Park, Joon Deok ; Sun, Xiao-Guang ; Gao, Xiang ; Lee, Ho Nyung ; MacManus-Driscoll, Judith L. ; Kwon, Deok-Hwang ; Lee, Shinbuhm

Author Keywords: all-solid-state nanobattery ; TiO2(B) ; electrode ; templated epitaxy ; supercapacity ; long retention ; pseudocapacitiveintercalation

Keywords: THIN-FILMS ; TEMPLATED EPITAXY ; LITHIUM BATTERIES ; INSERTION ; INTERCALATION ; THERMODYNAMICS ; NANOPARTICLES ; PERFORMANCE ; CHALLENGES ; NANOTUBES

Abstract: Owing to its pseudocapacitive, unidimensional, rapid ion channels, TiO2(B) is a promising material for application to battery electrodes. In this study, we align these channels by epitaxially growing TiO2(B) films with the assistance of an isostructural VO2(B) template layer. In a liquid electrolyte, binder-free TiO2(B) epitaxial electrodes exhibit a supercapacity near the theoretical value of 335 mA h g-1 and an excellent charge-discharge reproducibility for ≥200 cycles, which outperform those of other TiO2(B) nanostructures. For the all-solid-state configuration employing the LiPON solid electrolyte, excellent stability persists. Our findings suggest excellent potential for miniaturizing all-solid-state nanobatteries in self-powered integrated circuits. © 2023 American Chemical Society.