Luminescent lanthanide nanocomposites in thermometry: Chemistry of dopant ions and host matrices
AA Ansari, AK Parchur, MK Nazeeruddin… - Coordination Chemistry …, 2021 - Elsevier
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 …
Coordination chemistry of the host matrices with dopant luminescent Ln3+ ion and their impact on luminescent properties
AA Ansari, MR Muthumareeswaran, R Lv - Coordination chemistry reviews, 2022 - Elsevier
Abstract Lanthanides (Ln 3+) are a unique class of optical materials and are extensively
used as building blocks for optoelectronic device architectures due to their outstanding …
used as building blocks for optoelectronic device architectures due to their outstanding …
[HTML][HTML] Dual-center thermochromic Bi2MoO6: Yb3+, Er3+, Tm3+ phosphors for ultrasensitive luminescence thermometry
Optical thermometers are of great interest due to their non-contact, high-sensitivity and fast
measurement characteristics. In this work, a series of dual-center Bi 1.96− x MoO 6: 0.02 Er …
measurement characteristics. In this work, a series of dual-center Bi 1.96− x MoO 6: 0.02 Er …
Near-infrared-triggered upconverting nanoparticles for biomedicine applications
Due to the unique properties of lanthanide-doped upconverting nanoparticles (UCNP) under
near-infrared (NIR) light, the last decade has shown a sharp progress in their biomedicine …
near-infrared (NIR) light, the last decade has shown a sharp progress in their biomedicine …
Aspects of luminescence nanoprobes for thermometry: Progress and outlook
The measurement of correct temperature with precise accuracy is crucial to conduct both
scientific research and industrial manufacturing. A conventional thermometer is based on …
scientific research and industrial manufacturing. A conventional thermometer is based on …
Upconverting lanthanide doped fluoride NaLuF4: Yb3+-Er3+-Ho3+-optical sensor for multi-range fluorescence intensity ratio (FIR) thermometry in visible and NIR …
M Runowski, A Bartkowiak, M Majewska… - Journal of …, 2018 - Elsevier
Luminescent materials co-doped with Er 3+-Ho 3+ activator ions can work as multi-range Vis-
NIR optical sensors of temperature. The upconverting NaLuF 4: 16% Yb 3+-2% Er 3+-0.5 …
NIR optical sensors of temperature. The upconverting NaLuF 4: 16% Yb 3+-2% Er 3+-0.5 …
Sensors for optical thermometry based on luminescence from layered YVO4: Ln3+ (Ln = Nd, Sm, Eu, Dy, Ho, Er, Tm, Yb) thin films made by atomic layer deposition
Below the Earth's crust, temperatures may reach beyond 600 K, impeding the batteries used
to power conventional thermometers. Fluorescence intensity ratio based temperature probes …
to power conventional thermometers. Fluorescence intensity ratio based temperature probes …