Thermoplasmonics in solar energy conversion: materials, nanostructured designs, and applications
B Yang, C Li, Z Wang, Q Dai - Advanced Materials, 2022 - Wiley Online Library
The indispensable requirement for sustainable development of human society has forced
almost all countries to seek highly efficient and cost‐effective ways to harvest and convert …
almost all countries to seek highly efficient and cost‐effective ways to harvest and convert …
Luminescent lanthanide nanocomposites in thermometry: Chemistry of dopant ions and host matrices
Recently, there has been observed huge progress in the advancement of remote optical
nanothermometry, as it plays a vital role in remote, noninvasive, and remote temperature …
nanothermometry, as it plays a vital role in remote, noninvasive, and remote temperature …
Recent advances on metal oxide-based luminescence thermometry
Luminescence thermometry alleviates the difficulties associated with conventional methods
for thermal sensing and provides outstanding opportunities for non-contact thermometry with …
for thermal sensing and provides outstanding opportunities for non-contact thermometry with …
Tailoring of Upconversion Emission in Tm3+/Yb3+-Codoped Y2Mo3O12 Submicron Particles Via Thermal Stimulation Engineering for Non-invasive Thermometry
To settle the challenges of optical thermometry with high sensitivity, a series of Tm3+/Yb3+-
codoped Y2Mo3O12 (YMO: Tm3+/2 x Yb3+) submicron particles were developed via a sol …
codoped Y2Mo3O12 (YMO: Tm3+/2 x Yb3+) submicron particles were developed via a sol …
Photo-/thermal synergies in heterogeneous catalysis: Towards low-temperature (solar-driven) processing for sustainable energy and chemicals
There is growing recognition that cooperative effects exist under dual-mode (photo-thermal)
heterogeneous catalytic excitation that offer genuine prospects in the transition to a …
heterogeneous catalytic excitation that offer genuine prospects in the transition to a …
Supersensitive Ratiometric Thermometry and Manometry Based on Dual‐Emitting Centers in Eu2+/Sm2+‐Doped Strontium Tetraborate Phosphors
The concept of optical temperature sensing using band intensity ratio is considered as one
of the most effective, self‐reference, non‐invasive, and rapid detection techniques for the …
of the most effective, self‐reference, non‐invasive, and rapid detection techniques for the …
Lanthanide molecular cluster-aggregates as the next generation of optical materials
In this perspective, we provide an overview of the recent achievements in luminescent
lanthanide-based molecular cluster-aggregates (MCAs) and illustrate why MCAs can be …
lanthanide-based molecular cluster-aggregates (MCAs) and illustrate why MCAs can be …
Lanthanide-based nanothermometers for bioapplications: excitation and temperature sensing in optical transparency windows
Nanoparticles containing lanthanide (Ln3+) ions in their structure have become one of the
most important tools in nanomedicine, mainly due to their appealing spectroscopic …
most important tools in nanomedicine, mainly due to their appealing spectroscopic …
Impact of noise and background on measurement uncertainties in luminescence thermometry
Materials with temperature-dependent luminescence can be used as local thermometers
when incorporated in, for example, a biological environment or chemical reactor …
when incorporated in, for example, a biological environment or chemical reactor …
A Ho3+‐Based Luminescent Thermometer for Sensitive Sensing over a Wide Temperature Range
Luminescence thermometry is used in a variety of research fields for noninvasive
temperature sensing. Lanthanide‐doped micro‐/nanocrystals are exceptionally suitable for …
temperature sensing. Lanthanide‐doped micro‐/nanocrystals are exceptionally suitable for …