Highly Reversible Ti/Sn Oxide Nanocomposite Electrodes for Lithium Ion Batteries Obtained by Oxidation of Ti₃Al_(1‐x)Sn_xC₂ Phases

Abstract: Among the materials for the negative electrodes in Li‐ion batteries, oxides capable of reacting with Li+ via intercalation/conversion/alloying are extremely interesting due to their high specific capacities but suffer from poor mechanical stability. A new way to design nanocomposites based on the (Ti/Sn)O2 system is the partial oxidation of the tin‐containing MAX phase of Ti3Al(1‐x)SnxO2 composition. Exploiting this strategy, this work develops composite electrodes of (Ti/Sn)O2 and MAX phase capable of withsta… Show more

“…Although the MXene is quite a stable material, its stability can be further improved by employing several techniques. Various approaches have been considered which include doping, defects and vacancy engineering, nanocomposite construction and modifying by charge blocking layer and functional groups. ,− Among them, modification of MXene using materials like metal oxides, metal sulfides, spinels, and perovskites are the promising ones.…”

“…Nanocomposites have been employed in gas sensing application due to their synergistic effects, which further enhances the sensitivity toward various gases . Various works have already been carried out with metal oxides and MXene; however, research on MXene based perovskite sensors is limited. ,− …”

Facile Design of Ti₃C₂T_X (MXene) Modified Spherical SrTiO₃ Structure toward Highly Sensitive Room Temperature Detection of NO₂

“…Although the MXene is quite a stable material, its stability can be further improved by employing several techniques. Various approaches have been considered which include doping, defects and vacancy engineering, nanocomposite construction and modifying by charge blocking layer and functional groups. ,− Among them, modification of MXene using materials like metal oxides, metal sulfides, spinels, and perovskites are the promising ones.…”

“…Nanocomposites have been employed in gas sensing application due to their synergistic effects, which further enhances the sensitivity toward various gases . Various works have already been carried out with metal oxides and MXene; however, research on MXene based perovskite sensors is limited. ,− …”

Facile Design of Ti₃C₂T_X (MXene) Modified Spherical SrTiO₃ Structure toward Highly Sensitive Room Temperature Detection of NO₂

Phosphorus decorated MOF-derived microflower-like carbon as a superior anode for lithium-ion batteries

Ti₃C₂ MXenes-based catalysts for the process of α-pinene isomerization