2D MoN1.2‐rGO Stacked Heterostructures Enabled Water State Modification for Highly Efficient Interfacial Solar Evaporation
Improving interfacial solar evaporation performance is crucial for the practical application of
this technology in solar‐driven seawater desalination. Lowering evaporation enthalpy is one …
this technology in solar‐driven seawater desalination. Lowering evaporation enthalpy is one …
Magic angle in thermal conductivity of twisted bilayer graphene
We report a local minimum in thermal conductivity in twisted bilayer graphene (TBG) at the
angle of 1.08°, which corresponds to the 'magic angle'in the transition of several other …
angle of 1.08°, which corresponds to the 'magic angle'in the transition of several other …
Effect of Twist Angle on Interfacial Thermal Transport in Two-Dimensional Bilayers
Advances in two-dimensional (2D) devices require innovative approaches for manipulating
transport properties. Analogous to the electrical and optical responses, it has been predicted …
transport properties. Analogous to the electrical and optical responses, it has been predicted …
Tuning thermal transport across monolayer MoS2/Si heterostructure via substrate nanogrooving
Abstract Substrate-supported two-dimensional (2D) material heterostructures have been
widely applied in electronic and photonic devices. However, the substrate reduces the …
widely applied in electronic and photonic devices. However, the substrate reduces the …
Atomic-scale surface engineering for giant thermal transport enhancement across 2D/3D van der Waals interfaces
Heat dissipation in two-dimensional (2D) material-based electronic devices is a critical issue
for their applications. The bottleneck for this thermal issue is inefficient for heat removal …
for their applications. The bottleneck for this thermal issue is inefficient for heat removal …
[HTML][HTML] Substrate-dependence of monolayer MoS2 thermal conductivity and thermal boundary conductance
The thermal properties of two-dimensional (2D) materials, such as MoS 2, are known to be
affected by interactions with their environment, but this has primarily been studied only with …
affected by interactions with their environment, but this has primarily been studied only with …
[HTML][HTML] A Review of Bandgap Engineering and Prediction in 2D Material Heterostructures: A DFT Perspective
The advent of two-dimensional (2D) materials and their capacity to form van der Waals
(vdW) heterostructures has revolutionized numerous scientific fields, including electronics …
(vdW) heterostructures has revolutionized numerous scientific fields, including electronics …
Active learning molecular dynamics-assisted insights into ultralow thermal conductivity of two-dimensional covalent organic frameworks
Two-dimensional covalent organic frameworks (2D COFs) are novel materials with high
porosities and large surface areas that are highly sought after for separation technologies …
porosities and large surface areas that are highly sought after for separation technologies …
Abnormally high thermal conductivity in fivefold twinned diamond nanowires
Abstract Fivefold twins (5FTs), discovered nearly 200 years ago, are a common multiply
twinned structure that usually dramatically deteriorate the thermal transport properties of …
twinned structure that usually dramatically deteriorate the thermal transport properties of …
Annealing-induced one order of magnitude enhancement in heat dissipation at graphene/SiO2 interface
The potential applications of two-dimensional (2D) materials-based devices in various fields
have garnered significant interest. However, the limited heat transfer efficiency across the …
have garnered significant interest. However, the limited heat transfer efficiency across the …