Recent progress in emergent two-dimensional silicene
Although graphene is by far the most famous example of two-dimensional (2D) materials,
which exhibits a wealth of exotic and intriguing properties, it suffers from a severe drawback …
which exhibits a wealth of exotic and intriguing properties, it suffers from a severe drawback …
A review on transport characteristics and Bio-sensingapplication of Silicene
S Ghosal, A Bandyopadhyay… - Reports on Progress …, 2023 - iopscience.iop.org
Silicene, a silicon counterpart of graphene, has been predicted to possess massless Dirac
fermions. Compared to graphene, the effective spin-orbit interaction is quite significant …
fermions. Compared to graphene, the effective spin-orbit interaction is quite significant …
Space-time thermal binary coding by a spatiotemporally modulated metashell
The recently proposed space-time-coding electromagnetic metasurface introduces the
temporal dimension into artificial structure design, greatly expanding its digital application in …
temporal dimension into artificial structure design, greatly expanding its digital application in …
Predicting lattice thermal conductivity from fundamental material properties using machine learning techniques
High-throughput screening and material informatics have shown a great power in the
discovery of novel materials, including batteries, high entropy alloys, and photocatalysts …
discovery of novel materials, including batteries, high entropy alloys, and photocatalysts …
Large thermal conductivity switching in ferroelectrics by electric field-triggered crystal symmetry engineering
A convenient, reversible, fast, and wide-range switching of thermal conductivity is desired for
efficient heat energy management. However, traditional methods, such as temperature …
efficient heat energy management. However, traditional methods, such as temperature …
Hydrodynamically enhanced thermal transport due to strong interlayer interactions: A case study of strained bilayer graphene
Manipulating interlayer interactions in two-dimensional (2D) materials is a widely used and
effective method for regulating heat transport, which is important for thermal management of …
effective method for regulating heat transport, which is important for thermal management of …
Electric-controlled tunable thermal switch based on Janus monolayer MoSSe
The high-performance, wide-range tunable thermal switches play a significant role in the
thermal management, high-power-density intelligent devices, energy systems, etc. However …
thermal management, high-power-density intelligent devices, energy systems, etc. However …
Electric-field-induced modulation of thermal conductivity in poly (vinylidene fluoride)
Phonon engineering focuses on heat transport modulation in atomic-scale. Different from
reported methods, it is shown that electric field can also modulate heat transport in …
reported methods, it is shown that electric field can also modulate heat transport in …
Tunable thermal wave nonreciprocity by spatiotemporal modulation
Nonreciprocity is of particular importance to realize one-way propagation, thus attracting
intensive research interest in various fields. Thermal waves, essentially originating from …
intensive research interest in various fields. Thermal waves, essentially originating from …
Lone-pair electrons induced anomalous enhancement of thermal transport in strained planar two-dimensional materials
Strain engineering is one of the most promising and effective routes towards continuously
tuning thermal transport due to the flexibility and robustness. However, previous studies …
tuning thermal transport due to the flexibility and robustness. However, previous studies …