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Strategy design for ratiometric luminescence thermometry: circumventing the limitation of thermally coupled levels
The ratiometric fluorescence technique is believed to hold promise as the most important
non-contact thermometry technique for future mass application due to the reliability and …
non-contact thermometry technique for future mass application due to the reliability and …
Processing and design methodologies for advanced and novel thermal barrier coatings for engineering applications
Thermal barrier coating is a crucial thermal insulation technology that enables the
underlying substrate to operate near or above its melting temperature. Such coatings bolster …
underlying substrate to operate near or above its melting temperature. Such coatings bolster …
Joining of silver nanomaterials at low temperatures: processes, properties, and applications
A review is provided, which first considers low-temperature diffusion bonding with silver
nanomaterials as filler materials via thermal sintering for microelectronic applications, and …
nanomaterials as filler materials via thermal sintering for microelectronic applications, and …
Size effect of band gap in semiconductor nanocrystals and nanostructures from density functional theory within HSE06
A new approach has been studied to determine the band gap energy based on the density
functional theory using the hybrid functional (HSE06) with the modeled lattice expansion of …
functional theory using the hybrid functional (HSE06) with the modeled lattice expansion of …
Thermodynamics at the nanoscale: A new approach to the investigation of unique physicochemical properties of nanomaterials
An extension of the classic thermodynamics theory to nanometer scale has generated a new
interdisciplinary theory–nanothermodynamics. It serves as a bridge between macroscopic …
interdisciplinary theory–nanothermodynamics. It serves as a bridge between macroscopic …
Selenium: a critical chemical element in nano and quantum physics
Selenium is a chemical element from the chalcogenide group (Oxygen, Sulfur, Selenium
and Tellurium), which has been defined as a critical element by the American Physical …
and Tellurium), which has been defined as a critical element by the American Physical …
Abnormal thermally enhanced upconversion luminescence of lanthanide-doped phosphors: proposed mechanisms and potential applications
Y Zhou, Y Cheng, Q Huang, J Xu, H Lin… - Journal of Materials …, 2021 - pubs.rsc.org
Luminescent materials usually suffer from luminescence thermal quenching because of the
aggravation of various nonradiation relaxations with elevated temperatures. However …
aggravation of various nonradiation relaxations with elevated temperatures. However …
Bi 2 Te 3 nanoplates and nanoflowers: Synthesized by hydrothermal process and their enhanced thermoelectric properties
Bi2Te3 nanoplates with a thickness of 15–20 nm and self-assembled flower-like
nanostructures using previous nanoplates as building blocks have been fabricated through …
nanostructures using previous nanoplates as building blocks have been fabricated through …
Effects of size and shape on the specific heat, melting entropy and enthalpy of nanomaterials
A simple theory is proposed to study the size-and shape-dependent specific heat, melting
entropy and enthalpy of nanomaterials. The particle size and shape are demonstrated to …
entropy and enthalpy of nanomaterials. The particle size and shape are demonstrated to …
Thermoelectric properties of lead chalcogenide core–shell nanostructures
We present the full thermoelectric characterization of nanostructured bulk PbTe and PbTe–
PbSe samples fabricated from colloidal core–shell nanoparticles followed by spark plasma …
PbSe samples fabricated from colloidal core–shell nanoparticles followed by spark plasma …