2018
DOI: 10.1103/physrevb.97.085107
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Structural, vibrational, and electrical properties of 1TTiTe2 under hydrostatic pressure: Experiments and theory

Abstract: We report the structural, vibrational and electrical transport properties up to ~ 16 GPa of the 1T-TiTe2, a prominent layered 2D system, which is predicted to show a series of topologically trivial -nontrivial transitions under hydrostatic compression. We clearly show signatures of two iso-structural transition at ~ 2 GPa and ~ 4 GPa obtained from the minima in c/a ratio concomitant with the phonon linewidth anomalies of Eg and A1g modes at around the same pressures, providing strong indication of unusual elec… Show more

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Cited by 77 publications
(89 citation statements)
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“…In our epitaxial films though the situation is different, because a significant interaction with the substrate is established as evidenced from the Moiré pattern (Figure a,b) and the perfect rotational alignment of the epilayer with the substrate (Figure ). The latter interaction produces anisotropic strain such that the in‐plane parameter is enlarged and the out of plane parameter along the c ‐axis is compressed by 2.3% as accurately measured by synchrotron GIXD, yielding an estimated stress ≈0.6–0.8 GPa if a measured bulk modulus B ≈ 0.28–0.40 GPa is assumed. The compression results in an appreciable reduction of van der Waals gap from ≈3.2 Å to the value of 3.1 Å that we measured by STEM bringing the Te–Ti–Te trilayers closer between each other thus enhancing interlayer Te–Te interactions, signifying a transition from a 2D to a 3D‐like TiTe 2 crystal.…”
Section: Discussionmentioning
confidence: 92%
“…In our epitaxial films though the situation is different, because a significant interaction with the substrate is established as evidenced from the Moiré pattern (Figure a,b) and the perfect rotational alignment of the epilayer with the substrate (Figure ). The latter interaction produces anisotropic strain such that the in‐plane parameter is enlarged and the out of plane parameter along the c ‐axis is compressed by 2.3% as accurately measured by synchrotron GIXD, yielding an estimated stress ≈0.6–0.8 GPa if a measured bulk modulus B ≈ 0.28–0.40 GPa is assumed. The compression results in an appreciable reduction of van der Waals gap from ≈3.2 Å to the value of 3.1 Å that we measured by STEM bringing the Te–Ti–Te trilayers closer between each other thus enhancing interlayer Te–Te interactions, signifying a transition from a 2D to a 3D‐like TiTe 2 crystal.…”
Section: Discussionmentioning
confidence: 92%
“…According to the XRD results and first-principles calculations, the highpressure superstructure phase is associated with both the distortion of the structure and Fermisurface nesting. The isostructural transitions in TMDs are commonly observed under high pressure 23,24 . However, it is unusual that application of high pressure induces a new symmetrized phase with a super-lattice, when pressure commonly suppresses such superstructures.…”
Section: Introductionmentioning
confidence: 99%
“…47) as shown by the evolution of the characteristic Raman signatures of fundamental optical phonon modes in TiSe 2 . It is proposed that as with 1T-TiTe 2 and IrTe 2 , 48,49 the TiSe 2 undergoes a transition to a non-layered monoclinic C2/m phase structure. We have checked this hypothesis using both our newly developed PSM IP and ab initio calculations in the range of relevant pressures.…”
Section: Resultsmentioning
confidence: 99%