Scott Stonemeyer scite author profile

Scott Stonemeyer

2Publications

64Citation Statements Received

91Citation Statements Given

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Affiliations

University of California, Berkeley, Lawrence Berkeley National Laboratory, Kavli Energy NanoScience Institute

Publications

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Stabilization of NbTe₃, VTe₃, and TiTe₃ via Nanotube Encapsulation

Stonemeyer

Cain

et al. 2020

J. Am. Chem. Soc.

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The structure of MX3 transition metal trichalcogenides (TMTs, with M a transition metal and X a chalcogen) is typified by one-dimensional (1D) chains weakly bound together via van der Waals interactions. This structural motif is common across a range of M and X atoms (e.g. NbSe3, HfTe3, TaS3), but not all M and X combinations are stable. We report here that three new members of the MX3 family which are not stable in bulk, specifically NbTe3, VTe3, and TiTe3, can be synthesized in the few-to single-chain limit via nano-confined growth within the 2 stabilizing cavity of multi-walled carbon nanotubes. Transmission electron microscopy (TEM) and atomic-resolution scanning transmission electron microscopy (STEM) reveal the chain-like nature and the detailed atomic structure. The synthesized materials exhibit behavior unique to few-chain quasi-1D structures, such as multi-chain spiraling and a trigonal anti-prismatic rocking distortion in the single-chain limit. Density functional theory (DFT) calculations provide insight into the crystal structure and stability of the materials, as well as their electronic structure.

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Targeting One- and Two-Dimensional Ta–Te Structures via Nanotube Encapsulation

et al. 2022

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Fine control over material synthesis on the nanoscale can facilitate the stabilization of competing crystalline structures. Here we demonstrate how carbon nanotube reaction vessels can be used to selectively create one-dimensional TaTe 3 chains or two-dimensional TaTe 2 nanoribbons with exquisite control of the chain number or nanoribbon thickness and width.Transmission electron microscopy and scanning transmission electron microscopy reveal the detailed atomic structure of the encapsulated materials. Complex superstructures such as multi-1 chain spiraling and apparent multi-layer moirés are observed. The rare 2H phase of TaTe 2 (1H in monolayer) is found to be abundant as an encapsulated nanoribbon inside carbon nanotubes. The experimental results are complemented by density functional theory calculations for the atomic and electronic structure, which uncovers the prevalence of 2H-TaTe 2 due to nanotube-tonanoribbon charge transfer and size confinement. Calculations also reveal new 1T' type charge density wave phases in TaTe 2 that could be observed in experimental studies.

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