Shaping and structuring 2D materials via kirigami and origami
Abstract Two-dimensional (2D) materials such as graphene and molybdenum disulfide et al.
offer significant new prospects for electronics, optics, and biosensing applications due to …
offer significant new prospects for electronics, optics, and biosensing applications due to …
Mono-elemental saturable absorber in near-infrared mode-locked fiber laser: A review
Two-dimensional mono-elemental material is an excellent saturable absorber candidate
with low saturation intensity, large modulation depth, high nonlinearities, and fast recovery …
with low saturation intensity, large modulation depth, high nonlinearities, and fast recovery …
Theoretical prediction and shape-controlled synthesis of two-dimensional semiconductive Ni3TeO6
Current progress in two-dimensional (2D) materials explorations leads to constant specie
enrichments of possible advanced materials down to two dimensions. The metal …
enrichments of possible advanced materials down to two dimensions. The metal …
Screening outstanding mechanical properties and low lattice thermal conductivity using global attention graph neural network
Mechanical and thermal properties of materials are extremely important for various
engineering and scientific fields such as energy conversion and energy storage. However …
engineering and scientific fields such as energy conversion and energy storage. However …
Prediction of 2D IV–VI semiconductors: auxetic materials with direct bandgap and strong optical absorption
Auxetic materials are highly desirable for advanced applications because of their negative
Poisson's ratios, which are rather scarce in two-dimensional materials. Motivated by the …
Poisson's ratios, which are rather scarce in two-dimensional materials. Motivated by the …
Unconventional mechanical and thermal behaviours of MOF CALF-20
CALF-20 was recently identified as a benchmark sorbent for CO2 capture at the industrial
scale, however comprehensive atomistic insight into its mechanical/thermal properties under …
scale, however comprehensive atomistic insight into its mechanical/thermal properties under …
Highly negative poisson's ratio in thermally conductive covalent organic frameworks
The prospect of combining two-dimensional materials in vertical stacks has created a new
paradigm for materials scientists and engineers. Herein, we show that stacks of two …
paradigm for materials scientists and engineers. Herein, we show that stacks of two …
Tetrahex carbides: Two-dimensional group-IV materials for nanoelectronics and photocatalytic water splitting
We report a series of novel two-dimensional (2D) group-IV carbides with perfectly ordered
arrangement of tetragons and hexagons. The 2D tetrahex carbides possess robust …
arrangement of tetragons and hexagons. The 2D tetrahex carbides possess robust …
Binary pentagonal auxetic materials for photocatalysis and energy storage with outstanding performances
Z Cheng, X Zhang, H Zhang, H Liu, X Yu, X Dai, G Liu… - Nanoscale, 2022 - pubs.rsc.org
Since the discovery of penta-graphene, two-dimensional (2-D) pentagonal-structured
materials have been highly expected to have desirable performance because of their unique …
materials have been highly expected to have desirable performance because of their unique …
Reversible and high-contrast thermal conductivity switching in a flexible covalent organic framework possessing negative Poisson's ratio
The ability to dynamically and reversibly control thermal transport in solid-state systems can
redefine and propel a plethora of technologies including thermal switches, diodes, and …
redefine and propel a plethora of technologies including thermal switches, diodes, and …