A researcher's perspective on unconventional lab-to-fab for 2D semiconductor devices
Current silicon technology is on the verge of reaching its performance limits. This aspect,
coupled with the global chip shortage, makes a solid case for steering our attention toward …
coupled with the global chip shortage, makes a solid case for steering our attention toward …
Optical Inspection of 2D Materials: From Mechanical Exfoliation to Wafer‐Scale Growth and Beyond
Optical inspection is a rapid and non‐destructive method for characterizing the properties of
two‐dimensional (2D) materials. With the aid of optical inspection, in situ and scalable …
two‐dimensional (2D) materials. With the aid of optical inspection, in situ and scalable …
Hidden phonon highways promote photoinduced interlayer energy transfer in twisted transition metal dichalcogenide heterostructures
Vertically stacked van der Waals (vdW) heterostructures exhibit unique electronic, optical,
and thermal properties that can be manipulated by twist-angle engineering. However, the …
and thermal properties that can be manipulated by twist-angle engineering. However, the …
Light-Tunable Surface State and Hybridization Gap in Magnetic Topological Insulator MnBi8Te13
MnBi8Te13 is an intrinsic ferromagnetic (FM) topological insulator with different complex
surface terminations. Resolving the electronic structures of different termination surfaces and …
surface terminations. Resolving the electronic structures of different termination surfaces and …
Three-stage ultrafast demagnetization dynamics in a monolayer ferromagnet
Intense laser pulses can be used to demagnetize a magnetic material on an extremely short
timescale. While this ultrafast demagnetization offers the potential for new magneto-optical …
timescale. While this ultrafast demagnetization offers the potential for new magneto-optical …
[HTML][HTML] High temperature oxidation of monolayer MoS2 and its effect on mechanical properties: A ReaxFF molecular dynamics study
Molybdenum disulfide (MoS 2) has lately been at the epicenter of scientific research due to
its mesmerizing electronic, thermal, and physical properties, which have opened the door to …
its mesmerizing electronic, thermal, and physical properties, which have opened the door to …
Towards simulation of the dynamics of materials on quantum computers
A highly anticipated application for quantum computers is as a universal simulator of
quantum many-body systems, as was conjectured by Richard Feynman in the 1980s. The …
quantum many-body systems, as was conjectured by Richard Feynman in the 1980s. The …
QXMD: An open-source program for nonadiabatic quantum molecular dynamics
F Shimojo, S Fukushima, H Kumazoe, M Misawa… - SoftwareX, 2019 - Elsevier
QXMD is a scalable, parallel program for Quantum Molecular Dynamics simulations with
various eXtensions. Its simulation engine is based on (time-dependent) density functional …
various eXtensions. Its simulation engine is based on (time-dependent) density functional …
Element-Specific Ultrafast Lattice Dynamics in Monolayer WSe2
We study monolayer WSe2 using ultrafast electron diffraction. We introduce an approach to
quantitatively extract atomic-site-specific information, providing an element-specific view of …
quantitatively extract atomic-site-specific information, providing an element-specific view of …
High‐resolution crystal truncation rod scattering: application to ultrathin layers and buried interfaces
AS Disa, FJ Walker, CH Ahn - Advanced Materials Interfaces, 2020 - Wiley Online Library
In crystalline materials, the presence of surfaces or interfaces gives rise to crystal truncation
rods (CTRs) in their X‐ray diffraction patterns. While structural properties related to the bulk …
rods (CTRs) in their X‐ray diffraction patterns. While structural properties related to the bulk …