Commensurate Stacking Phase Transitions in an Intercalated Transition Metal Dichalcogenide

Abstract: Intercalation and stacking‐order modulation are two active ways in manipulating the interlayer interaction of transition metal dichalcogenides (TMDCs), which lead to a variety of emergent phases and allow for engineering material properties. Herein, the growth of Pb‐intercalated TMDCs–Pb(Ta1+xSe2)2, the first 124‐phase, is reported. Pb(Ta1+xSe2)2 exhibits a unique two‐step first‐order structural phase transition at around 230 K. The transitions are solely associated with the stacking degree of freedom, evolvin… Show more

“…[14][15][16][17] The MX 2 can be extracted into a single layer sheet from their bulk counterpart to investigate their intriguing characteristics for various applications. Various techniques employed to manufacture few-layer MX 2 are two-step expansion and intercalation, 18,19 chemical vapor deposition (CVD), 20 mechanical exfoliation, 21,22 liquid exfoliation, 23 and hydrothermal intercalation/exfoliation. 24,25 MX 2 have also received a lot of attention due to their potential use in optoelectronics, 26 electronics, 21 and solar cells 27,28 applications.…”

A first principles study of structural and optoelectronic properties and photocatalytic performance of GeC–MX₂ (M = Mo and W; X = S and Se) van der Waals heterostructures

“…[14][15][16][17] The MX 2 can be extracted into a single layer sheet from their bulk counterpart to investigate their intriguing characteristics for various applications. Various techniques employed to manufacture few-layer MX 2 are two-step expansion and intercalation, 18,19 chemical vapor deposition (CVD), 20 mechanical exfoliation, 21,22 liquid exfoliation, 23 and hydrothermal intercalation/exfoliation. 24,25 MX 2 have also received a lot of attention due to their potential use in optoelectronics, 26 electronics, 21 and solar cells 27,28 applications.…”

A first principles study of structural and optoelectronic properties and photocatalytic performance of GeC–MX₂ (M = Mo and W; X = S and Se) van der Waals heterostructures

Phase Engineering of Giant Second Harmonic Generation in Bi₂O₂Se

Annealing-induced long-range charge density wave order in magnetic kagome FeGe: Fluctuations and disordered structure