V₄C₃ MXene: a Type‐II Nodal Line Semimetal with Potential as High‐Performing Anode Material for Mg‐Ion Battery

Abstract: We have used density functional theory simulations to explore the topological characteristics of a new MXene‐like material, V4C3, and its oxide counterpart, assessing their potential as anode materials for Mg‐ion batteries. Our research reveals that V4C3 monolayer is a topological type‐II nodal line semimetal, protected by time reversal and spatial inversion symmetries. This type‐II nodal line is marked by unique drumhead‐like edge states that appear either inside or outside the loop circle, contingent upon th… Show more

“…Herein, owing to the high electrical conductivity, large interlayer spacing, and superior structural stability of V 4 C 3 MXene, 39,40 we have utilized V 4 C 3 MXene to synthesize a series of vanadium oxides, M x V 5 O 12 ·H 2 O (M = Zn, Co, Ni), by a one-step hydrothermal method. The resulting Zn 0.99 V 5 O 12 ·H 2 O (ZnVO) nanoribbons with a width of about 100 nm exhibit the largest interlayer spacing (13.465 Å) compared to Co 0.60 V 5 O 12 ·H 2 O (CoVO, 13.327 Å) crosslinked blocks and Ni 0.58 V 5 O 12 ·H 2 O (NiVO, 13.193 Å) nanoribbons.…”

V₄C₃ MXene-derived Zn_0.99V₅O₁₂·nH₂O nanoribbons as advanced cathodes for ultra-long life aqueous zinc-ion batteries

“…Herein, owing to the high electrical conductivity, large interlayer spacing, and superior structural stability of V 4 C 3 MXene, 39,40 we have utilized V 4 C 3 MXene to synthesize a series of vanadium oxides, M x V 5 O 12 ·H 2 O (M = Zn, Co, Ni), by a one-step hydrothermal method. The resulting Zn 0.99 V 5 O 12 ·H 2 O (ZnVO) nanoribbons with a width of about 100 nm exhibit the largest interlayer spacing (13.465 Å) compared to Co 0.60 V 5 O 12 ·H 2 O (CoVO, 13.327 Å) crosslinked blocks and Ni 0.58 V 5 O 12 ·H 2 O (NiVO, 13.193 Å) nanoribbons.…”

V₄C₃ MXene-derived Zn_0.99V₅O₁₂·nH₂O nanoribbons as advanced cathodes for ultra-long life aqueous zinc-ion batteries

Unlocking the potential of Mg-ion batteries: Cu2C MXene anode with ultrahigh storage and energy density with rapid Mg diffusion

Recent trends in the development of vanadium carbide MXenes-based materials for metal ion batteries