Add to ORKGThe unique optical profiles exhibited by trivalent lanthanide ions and their coordination compounds has resulted in their emergence as excellent candidates for a wide range of optical applications. However, methods for exciting lanthanide compounds more often than not involve excitation in the UV and visible regions of the electromagnetic spectrum, where many biological molecules and materials also strongly absorb. In this Chapter, we discuss developments in the use of alternative approaches to excitation of trivalent lanthanides using near infra-red light in both multiphoton and upconversion processes, focusing on the underlying principles and recent developments in the coordination chemistry enabling such processes to operate in solution
Luminescence from the trivalent lanthanides is used for detection in biological systems. Lanthanide ...
We synthesize new light-emitting inorganic materials. Emission is induced by photoexcitation and the...
Exploration of upconversion luminescence from lanthanide emitters through energy migration has profo...
Since the non-linear optical (NLO) response of matter to incident excitation light does not require ...
Since the non-linear optical (NLO) response of matter to incident excitation light does not require ...
Red light, green light! Emission through three-photon upconversion processes from polymeric organic-...
The piling up of low-energy photons to produce light beams of higher energies while exploiting the n...
Three terbium coordination complexes have been synthesized. Bright green emission from these compoun...
Considered at the beginning of the 21th century as being incompatible with the presence of closely b...
Single-center light upconversion corresponds to the pilling up of low-energy photons via successive ...
Sensitization of lanthanide luminescence in the visible and near infra-red (NIR) region was achieved...
While the low-absorption cross section of lanthanide-based upconversion systems, in which the trival...
Lanthanide pairs, which can upconvert low energy photons into higher energy photons, are promising f...
Considered at the beginning of the 21th century as being incompatible with the presence of closely b...
Light-upconversion via stepwise energy transfer from a sensitizer to an activator exploits linear op...
Luminescence from the trivalent lanthanides is used for detection in biological systems. Lanthanide ...
We synthesize new light-emitting inorganic materials. Emission is induced by photoexcitation and the...
Exploration of upconversion luminescence from lanthanide emitters through energy migration has profo...
Since the non-linear optical (NLO) response of matter to incident excitation light does not require ...
Since the non-linear optical (NLO) response of matter to incident excitation light does not require ...
Red light, green light! Emission through three-photon upconversion processes from polymeric organic-...
The piling up of low-energy photons to produce light beams of higher energies while exploiting the n...
Three terbium coordination complexes have been synthesized. Bright green emission from these compoun...
Considered at the beginning of the 21th century as being incompatible with the presence of closely b...
Single-center light upconversion corresponds to the pilling up of low-energy photons via successive ...
Sensitization of lanthanide luminescence in the visible and near infra-red (NIR) region was achieved...
While the low-absorption cross section of lanthanide-based upconversion systems, in which the trival...
Lanthanide pairs, which can upconvert low energy photons into higher energy photons, are promising f...
Considered at the beginning of the 21th century as being incompatible with the presence of closely b...
Light-upconversion via stepwise energy transfer from a sensitizer to an activator exploits linear op...
Luminescence from the trivalent lanthanides is used for detection in biological systems. Lanthanide ...
We synthesize new light-emitting inorganic materials. Emission is induced by photoexcitation and the...
Exploration of upconversion luminescence from lanthanide emitters through energy migration has profo...