Fabrication technologies for the on‐chip integration of 2D materials
With compact footprint, low energy consumption, high scalability, and mass producibility,
chip‐scale integrated devices are an indispensable part of modern technological change …
chip‐scale integrated devices are an indispensable part of modern technological change …
A review of defect engineering in two-dimensional materials for electrocatalytic hydrogen evolution reaction
T Tang, Z Wang, J Guan - Chinese Journal of Catalysis, 2022 - Elsevier
The exploration of efficient and earth-rich electrocatalysts for electrochemical reactions is
critical to the implementation of large-scale green energy conversion and storage …
critical to the implementation of large-scale green energy conversion and storage …
Building P-doped MoS2/g-C3N4 layered heterojunction with a dual-internal electric field for efficient photocatalytic sterilization
X Zhang, F Tian, X Lan, Y Liu, W Yang, J Zhang… - Chemical Engineering …, 2022 - Elsevier
The construction of internal electric field (IEF) is usually considered an effective strategy to
enhance photocatalytic efficiency because of its significant role in photo-induced carrier …
enhance photocatalytic efficiency because of its significant role in photo-induced carrier …
Catalysis with two-dimensional materials confining single atoms: concept, design, and applications
Y Wang, J Mao, X Meng, L Yu, D Deng, X Bao - Chemical reviews, 2018 - ACS Publications
Two-dimensional materials and single-atom catalysts are two frontier research fields in
catalysis. A new category of catalysts with the integration of both aspects has been rapidly …
catalysis. A new category of catalysts with the integration of both aspects has been rapidly …
Ultrastable 1T-2H WS2 Heterostructures by Nanoarchitectonics of Phosphorus-Triggered Phase Transition for Hybrid Supercapacitors
Tungsten disulfide (WS2) has recently emerged as a nontrivial material for electrochemical
applications; however, boundaries associated with its 1T and 2H phases limit its …
applications; however, boundaries associated with its 1T and 2H phases limit its …
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 …
Enhancing electrocatalytic water splitting by strain engineering
Electrochemical water splitting driven by sustainable energy such as solar, wind, and tide is
attracting ever‐increasing attention for sustainable production of clean hydrogen fuel from …
attracting ever‐increasing attention for sustainable production of clean hydrogen fuel from …
Two-dimensional transition metal dichalcogenides: interface and defect engineering
Two-dimensional (2D) transition metal dichalcogenides (TMDCs) have been considered as
promising candidates for next generation nanoelectronics. Because of their atomically-thin …
promising candidates for next generation nanoelectronics. Because of their atomically-thin …
Engineering van der Waals materials for advanced metaphotonics
The outstanding chemical and physical properties of 2D materials, together with their
atomically thin nature, make them ideal candidates for metaphotonic device integration and …
atomically thin nature, make them ideal candidates for metaphotonic device integration and …
Rational Design of MXene/1T‐2H MoS2‐C Nanohybrids for High‐Performance Lithium–Sulfur Batteries
Despite high‐energy density and low cost of the lithium–sulfur (Li–S) batteries, their
commercial success is greatly impeded by their severe capacity decay during long‐term …
commercial success is greatly impeded by their severe capacity decay during long‐term …