Stephen Gee scite author profile

Twisted van der Waals (vdW) materials with a controllable twist are of great interest because the twist offers new opportunities to modify the optoelectronic properties of the materials, giving rise to exotic phenomena, such as superconductivity, moiré excitons, and chiroptical response. Recently, we have synthesized helical vdW crystals with a periodic twist via the vapor–liquid–solid (VLS) growth of dislocated germanium sulfide nanowires with an Eshelby twist. The twist rates and periods of these structures are determined by the radii of the dislocated nanowires, which are defined by the size of the droplets catalyzing the VLS process. In this work, we tailor the twist rates and periods of the structures via chemically modulating the droplet size and the diameter of dislocated vdW nanowires. Our chemical analysis reveals that the growth of twisted GeS nanowires is catalyzed by droplets of an Au–Ge alloy. The size of the catalyst droplets was tailored by introducing GeSe into the growth. The addition of GeSe significantly increases the surface energy of the droplets, increasing the size of the droplets. This results in the growth of GeS1–x Se x with decreased twist rates. The chemical modulation of the droplet size is correlated with the change of germanium concentration (supersaturation) in the alloy droplets, consistent with the Gibbs–Thomson effect. Increasing the selenium concentration in the GeS1–x Se x from x = 0 to x = 0.11 decreases the twist rate from 0.59 to 0.22 rad/μm, increasing the period from 8 to 15 μm. The chemical modulation demonstrates good potential to tailor the twist rate and period of helical vdW crystals, providing more flexibility to modulate the optoelectronic properties and chiral light–matter interactions. Moreover, adding GeS into the source powder provides a means to tune the composition of the nanowires and mesoscale twisted crystals as GeS1-xSex alloy structures are produced. Our Raman spectroscopy and photoluminescence spectroscopy studies suggest that the compositional engineering in GeS1–x Se x has good potential to tune the optoelectronic property.

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Microwave dielectric properties of a low firing and temperature stable lithium magnesium tungstate (Li4MgWO6) ceramic with a rock-salt variant structure

Zhang

Fang

Jiang

et al. 2021

Journal of the European Ceramic Society

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Growth and Properties of Dislocated Two-dimensional Layered Materials

et al. 2020

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Two-dimensional (2D) layered materials hosting dislocations have attracted considerable research attention in recent years. In particular, screw dislocations can result in a spiral topology and an interlayer twist in the layered materials, significantly impacting the stacking order and symmetry of the layers. Moreover, the dislocations with large strain and heavily distorted atomic registry can result in a local modification of the structures around the dislocation. The dislocations thus provide a useful route to engineering optical, electrical, thermal, mechanical and catalytic properties of the 2D layered materials, which show great potential to bring new functionalities. This article presents a comprehensive review of the experimental and theoretical progress on the growth and properties of the dislocated 2D layered materials. It also offers an outlook on the future works in this promising research field.

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Stephen Gee

Chemically Modulating the Twist Rate of Helical van der Waals Crystals

Microwave dielectric properties of a low firing and temperature stable lithium magnesium tungstate (Li4MgWO6) ceramic with a rock-salt variant structure

Growth and Properties of Dislocated Two-dimensional Layered Materials

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