Machine learning in scanning transmission electron microscopy
Scanning transmission electron microscopy (STEM) has emerged as a uniquely powerful
tool for structural and functional imaging of materials on the atomic level. Driven by …
tool for structural and functional imaging of materials on the atomic level. Driven by …
Atomic‐Level Design of Active Site on Two‐Dimensional MoS2 toward Efficient Hydrogen Evolution: Experiment, Theory, and Artificial Intelligence Modelling
Atom‐economic catalysts open a new era of computationally driven atomistic design of
catalysts. Rationally manipulating the structures of the catalyst with atomic‐level precision …
catalysts. Rationally manipulating the structures of the catalyst with atomic‐level precision …
Epitaxial growth of hybrid nanostructures
Hybrid nanostructures are a class of materials that are typically composed of two or more
different components, in which each component has at least one dimension on the …
different components, in which each component has at least one dimension on the …
Direct methane activation by atomically thin platinum nanolayers on two-dimensional metal carbides
Efficient and direct conversion of methane to value-added products has been a long-term
challenge in shale gas applications. Here, we show that atomically thin nanolayers of Pt with …
challenge in shale gas applications. Here, we show that atomically thin nanolayers of Pt with …
Atomic structure of defects and dopants in 2D layered transition metal dichalcogenides
Layered transition metal dichalcogenides (TMDs) offer monolayer 2D systems with diverse
properties that extend beyond what graphene alone can achieve. The properties of TMDs …
properties that extend beyond what graphene alone can achieve. The properties of TMDs …
Probing functional structures, defects, and interfaces of 2D transition metal dichalcogenides by electron microscopy
Abstract 2D transition metal dichalcogenides (TMDs) exhibit remarkable properties that are
strongly influenced by their atomic structures, as well as by various types of defects and …
strongly influenced by their atomic structures, as well as by various types of defects and …
Atomic‐Scale Insights into the 2D Materials from Aberration‐Corrected Scanning Transmission Electron Microscopy: Progress and Future
2D crystals are attractive due to their unique atomic, electronic structures, and
physiochemical properties, which strongly rely on the synthesis conditions. The atomic …
physiochemical properties, which strongly rely on the synthesis conditions. The atomic …
MoS2 Liquid Cell Electron Microscopy Through Clean and Fast Polymer-Free MoS2 Transfer
Two dimensional (2D) materials have found various applications because of their unique
physical properties. For example, graphene has been used as the electron transparent …
physical properties. For example, graphene has been used as the electron transparent …
Ultralong 1D Vacancy Channels for Rapid Atomic Migration during 2D Void Formation in Monolayer MoS2
High-energy irradiation of materials can lead to void formation due to the aggregation of
vacancies, reducing the local stress in the system. Studying void formation and its interplay …
vacancies, reducing the local stress in the system. Studying void formation and its interplay …
Synthesis of Surface Grown Pt Nanoparticles on Edge-Enriched MoS2 Porous Thin Films for Enhancing Electrochemical Performance
A hybrid catalyst, Pt nanocrystals deposited on the surface of MoS2 vertically standing
nanoplatelets, is synthesized via chemical vapor deposition and subsequent thermal …
nanoplatelets, is synthesized via chemical vapor deposition and subsequent thermal …