Battery-grade silver citrate-nickel hydroxide-multiwalled carbon nanotubes nanocomposites for high-performance supercapattery applications
JOURNAL OF ENERGY STORAGE(2024)
摘要
by rapid solidification using RFeSi intermetallic comtheir magnetostructural and study carried out led to the phase observed in the polytetragonal CeFeSi-type crystal technique employed is a viable circumventing the long-time high -temprevious works; (b) the value for ferromagnetic -toboth compounds in comfor bulk alloys together with 000185), Spain. The technical support received from M.Sc. B.A. RiveraEscoto, M.Sc. A.I. Pen similar to a Maldonado and Dr. I.G. Becerril-Ju ' arez are gratefully acknowledged. M. Guel Rodriguez and J. Zamora thank CONAHCyT-Me ' xico for supporting the Master Science studies and postdoctoral position, respectively, at IPICyT. J.L. S ' anchez Llamazares acknowledges the support received from the European UnionNextGenerationEU, Ministerio de Universidades, and Plan de Recuperaci ' on, Transformaci ' on y Resiliencia, in the framework of the Maria Zambrano program of the University of Oviedo (Uniovi), Spain (Reference: MU-21-UP2021-030 71741542). C.F. S ' anchez-Valde ' s is grateful to UACJ for supporting his sabbatical research stay at Uniovi. Appendix A. Supporting information Supplementary data associated with this article can be found in the
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关键词
Energy storage,Battery-grade materials,Hydroxide,CNTs,Nanomaterials,Supercapattery
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