Título: Energy MaterialsImportada do Authenticus Pesquisar Publicações da Revista

Vol. 5

ISSN: 2770-5900

ISI Web of Science

ID Authenticus: P-018-ED3

DOI: 10.20517/energymater.2024.297

Resumo (PT):

Abstract (EN): <jats:p>The nickel-rich NMC955 (LiNi0.90Mn0.05Co0.05O2) cathode, with minimal cobalt, is the zenith of NMC technology but faces structural and thermal stability challenges, losing an average of 15 % of its capacity in the first discharge. Here, by selecting appropriate materials and synthesis methods in an all-solid-state battery cell, this challenge is effectively mitigated. A sustainable fabrication of the LiNMC955 positive electrode, excluding PVDF and using styrene-butadiene rubber SBR, demonstrates high retention in all-solid-state cells, without additional interlayers or pressure, at room temperature. To prevent oxygen release, spurious phase formation, and magnetic frustration, simulations determined optimal cycling thresholds and curve morphologies for a Li0/Li6PS5Cl/NMC955 cell by ¿following the electrons¿. This optimized routine ensures prolonged cycle life and performance demonstrated by sheet resistance/Hall effect, SEM/EDX, AFM/SKPM, TOF-SIMS, Raman, calorimetry, and electrochemical analyses. The tailored preparation method and cycling regimen enabled the fabrication of a high-performance cathode, achieving capacities exceeding 110-120 mAh.g-1 at C discharging C-rate, after 200 cycles, with a self-recovering component shifting performance to theoretical capacities (192 mAh.g-1), emphasizing the cathode's pivotal role in all-solid-state performance.</jats:p>

Idioma: Inglês

Tipo (Avaliação Docente): Científica

Notas: Impact factor: 11.8 (Clarivate)