Page 196 - Read Online
P. 196

Page 12 of 12              Cui et al. Energy Mater 2023;3:300023  https://dx.doi.org/10.20517/energymater.2022.90

               26.      Sambandam B, Soundharrajan V, Kim S, et al. K V O ·2.7H O nanorod cathode: an advanced intercalation system for high energy
                                                     6
                                                    2
                                                            2
                                                       16
                   aqueous rechargeable Zn-ion batteries. J Mater Chem A 2018;6:15530-9.  DOI
               27.      He P, Yan M, Zhang G, et al. Layered VS  nanosheet-based aqueous Zn ion battery cathode. Adv Energy Mater 2017;7:1601920.  DOI
                                              2
               28.      Li G, Yang Z, Jiang Y, et al. Towards polyvalent ion batteries: a zinc-ion battery based on NASICON structured Na V (PO ) . Nano
                                                                                               3
                                                                                                    4 3
                                                                                                 2
                   Energy 2016;25:211-7.  DOI
               29.      Qin H, Yang Z, Chen L, et al. A high-rate aqueous rechargeable zinc ion battery based on the VS @rGO nanocomposite. J Mater
                                                                                    4
                   Chem A 2018:6;23757-65.  DOI
               30.      Tang B, Fang G, Zhou J, et al. Potassium vanadates with stable structure and fast ion diffusion channel as cathode for rechargeable
                   aqueous zinc-ion batteries. Nano Energy 2018;51:579-87.  DOI
                                                         2+
               31.      Guo X, Fang G, Zhang W, et al. Mechanistic insights of Zn  storage in sodium vanadates. Adv Energy Mater 2018;8:1801819.  DOI
               32.      He P, Quan Y, Xu X, et al. High-performance aqueous zinc-ion battery based on layered H V O  nanowire cathode. Small
                                                                                    2  3  8
                   2017;13:1702551.  DOI
               33.      Zhang N, Jia M, Dong Y, et al. Hydrated layered vanadium oxide as a highly reversible cathode for rechargeable aqueous zinc
                   batteries. Adv Funct Mater 2019;29:1807331.  DOI
               34.      Tatara R, Karayaylali P, Yu Y, et al. The effect of electrode-electrolyte interface on the electrochemical impedance spectra for positive
                   electrode in Li-ion battery. J Electrochem Soc 2019;166:A5090-8.  DOI
               35.      Dong L, Yang W, Yang W, et al. High-power and ultralong-life aqueous zinc-ion hybrid capacitors based on pseudocapacitive charge
                   storage. Nanomicro Lett 2019;11:94.  DOI  PubMed  PMC
               36.      Liu Z, Bertram P, Endres F. Bio-degradable zinc-ion battery based on a prussian blue analogue cathode and a bio-ionic liquid-based
                   electrolyte. J Solid State Electrochem 2017;21:2021-7.  DOI
                                                        2+
               37.      Zhang F, Sun X, Du M, et al. Weaker interactions in Zn  and organic ion-pre-intercalated vanadium oxide toward highly reversible
                   zinc-ion batteries. Energy Environ Mater 2021;4:620-30.  DOI
   191   192   193   194   195   196   197   198   199   200   201