Fluorine-Doped NaTi2(PO4)3 Via Electronic Orbital Modulation and Bandgap Engineering for Aqueous Li/Na/K-Ion Batteries
Artikel i vetenskaplig tidskrift, 2025
aqueous Li/Na/K-ion batteries
ionic conductivity
NASICON-type NaTi2(PO4)3 electrode
electronic structure
Författare
Tong Xu
Xi'an University of Technology
Xi'an Institute of Posts and Telecommunications
Jiaojiao Yu
Xi'an Institute of Posts and Telecommunications
Junchao Ma
Xi'an Institute of Posts and Telecommunications
Hongbo Yu
Xi'an Institute of Posts and Telecommunications
Junling Che
Xi'an Institute of Posts and Telecommunications
Qixiang Yin
Xi'an Institute of Posts and Telecommunications
Yukun Xi
Xi'an University of Technology
Yanyan Cao
Xi'an University of Technology
Mangmang Shi
Kemi och biokemi doktorander och postdocs
Shuting Wang
Xi'an Institute of Posts and Telecommunications
Wu Wan
Xi'an Institute of Posts and Telecommunications
Changxin Li
Xi'an Institute of Posts and Telecommunications
Rui Chen
Xi'an Institute of Posts and Telecommunications
Jinniu Zhang
Xi'an Institute of Posts and Telecommunications
Qiyi Zhao
Xi'an Institute of Posts and Telecommunications
Wei Ren
Xi'an Institute of Posts and Telecommunications
Mingliang Hu
Xi'an Institute of Posts and Telecommunications
Xifei Li
Xi'an University of Technology
Energy and Environmental Materials
25750348 (ISSN) 25750356 (eISSN)
Vol. In PressÄmneskategorier (SSIF 2025)
Materialkemi
DOI
10.1002/eem2.70043