A brief review on the recent development of phonon engineering and manipulation at nanoscales
S **e, H Zhu, X Zhang, H Wang - International Journal of Extreme …, 2023 - iopscience.iop.org
Phonons are the quantum mechanical descriptions of vibrational modes that manifest
themselves in many physical properties of condensed matter systems. As the size of …
themselves in many physical properties of condensed matter systems. As the size of …
Quantitative analysis of interface heat transport at the Si3N4/SiO2 van-der Waals point contact
Si 3 N 4 and SiO 2 have been widely used in lithium batteries and optical devices. The high
energy density brought by device integration makes the interfacial heat transport at the nano …
energy density brought by device integration makes the interfacial heat transport at the nano …
An analytical model of label-free nanoscale chemical imaging reveals avenues toward improved spatial resolution and sensitivity
Atomic force microscopy–infrared spectroscopy (AFM-IR) is a photothermal scanning probe
technique that combines nanoscale spatial resolution with the chemical analysis capability …
technique that combines nanoscale spatial resolution with the chemical analysis capability …
Beating thermal noise in a dynamic signal measurement by a nanofabricated cavity optomechanical sensor
Thermal fluctuations often impose both fundamental and practical measurement limits on
high-performance sensors, motivating the development of techniques that bypass the …
high-performance sensors, motivating the development of techniques that bypass the …
Understanding cantilever transduction efficiency and spatial resolution in nanoscale infrared microscopy
Photothermal induced resonance (PTIR), also known as AFM-IR, enables nanoscale
infrared (IR) imaging and spectroscopy by using the tip of an atomic force microscope to …
infrared (IR) imaging and spectroscopy by using the tip of an atomic force microscope to …
[HTML][HTML] Thermal environment impact on HfOx RRAM operation: A nanoscale thermometry and modeling study
As the demand for computing applications capable of processing large datasets increases,
there is a growing need for new in-memory computing technologies. Oxide-based resistive …
there is a growing need for new in-memory computing technologies. Oxide-based resistive …
Direct Visualization of Chemically Resolved Multilayered Domains in Mixed‐Linker Metal–Organic Frameworks
The modular synthesis approach for assembling inorganic nodes and organic multidentate
linkers into reticular solids enables rational engineering in porous materials known as metal …
linkers into reticular solids enables rational engineering in porous materials known as metal …
Visible to mid-IR spectromicroscopy with top-down illumination and nanoscale (≈ 10 nm) resolution
Photothermal induced resonance (PTIR), an atomic force microscopy (AFM) analogue of IR
spectroscopy also known as AFM-IR, is capable of nanoscale lateral resolution and finds …
spectroscopy also known as AFM-IR, is capable of nanoscale lateral resolution and finds …
Understanding AFM-IR signal dependence on sample thickness and laser excitation: experimental and theoretical insights
Photothermal induced resonance (PTIR), also known as atomic force microscopy-infrared
(AFM-IR), enables nanoscale IR absorption spectroscopy by transducing the local …
(AFM-IR), enables nanoscale IR absorption spectroscopy by transducing the local …
Isotopic effects on in-plane hyperbolic phonon polaritons in MoO3
Hyperbolic phonon polaritons (HPhPs), hybrids of light and lattice vibrations in polar
dielectric crystals, empower nanophotonic applications by enabling the confinement and …
dielectric crystals, empower nanophotonic applications by enabling the confinement and …