@article{34316, author = {Shaikshavali Petnikota and Rodney Chua and Karunakara Moorthy Boopathi and Rohit Satish and Francesco Bonaccorso and Vittorio Pellegrini and Madhavi Srinivasan}, title = {An Insight into the Electrochemical Activity of Al-doped V₂O₃}, abstract = {

We design Al-doped V₂O₃\ (Al_xV₂O₃) compounds as cathodes of aluminium battery. A citric acid-assisted simple solid-state synthesis is used to produce Al_xV₂O₃\ compounds by heating, at different temperature, a reaction mixture of NH₄VO₃, Al(NO₃)₃ centerdot 9H₂O and citric acid under Ar flow. Al-doping in-between layers and at lattice sites of V2O3\ is confirmed by structural, vibrational and chemical analyses. The doped compounds obtained at 600 {\textdegree}C and 800 {\textdegree}C are confirmed as Al_0.56V₂O₃\ and Al_0.53V₂O₃\ corresponding to theoretical capacities 488 and 490 mAh g^-1, respectively, for the extraction of doped Al by considering three electron transfer (Al/Al³⁺). The as-synthesized Al_xV₂O₃\ compounds are tested as cathodes in aluminium battery with 1.0 M AlCl₃:[EMIM]Cl electrolyte. The electrodes of Al_0.56V₂O₃\ and Al_0.53V₂O₃\ exhibited the first charge capacity of 415 and 385 mAh g^-1, respectively. The electrochemical extraction of doped Al is confirmed by comparisons with bare V2O3\ control cathodes and post-cycling structural studies. The extraction of doped Al from Al_xV₂O₃\ indicates its promising use in high capacity cathode for Al-ion battery.

}, year = {2020}, booktitle = {Journal of The Electrochemical Society}, journal = {Journal of The Electrochemical Society}, series = {Journal of The Electrochemical Society}, volume = {167}, pages = {100514}, month = {06/2020}, doi = {10.1149/1945-7111/ab971e}, language = {eng}, }