2024
DOI: 10.1002/slct.202304755
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Recent Advances in Stimuli‐Responsive Luminescent Supramolecular Lanthanide‐Based Metallogels

Bilash Chandra Roy,
Animesh Kundu,
Pranjit Biswas
et al.

Abstract: The use of lanthanide‐based metallogels presents a promising approach for the engineering of stimuli‐responsive gel materials. Stimuli‐responsive luminescent materials based on lanthanides have promising applications in bio‐applications and optical encoding. Synthetic supramolecular metallogels typically become kinetically trapped and usually do not exhibit time‐variable changes in their material properties. However, such supramolecular metallogels can switch between gel to sol when subjected to different exte… Show more

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Cited by 8 publications
(3 citation statements)
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“…H 3 L was chosen as the ligand to form the luminescent H 3 L/Tb 3+ gel due to its self-assembly ability 20,21 and its potential to sensitize Tb 3+ . 8,11 SR101 was selected as the energy acceptor because of its spectral overlap with the energy donor, enabling tuning of the emission color based on FRET platforms by adjusting the SR101 amount in the H 3 L/Tb 3+ gel. Considering that acid can inhibit the coordination of the carboxyl group with Tb 3+ and suppress the “antenna effect,” 8 we anticipated that the SR101-doped H 3 L/Tb 3+ gels would exhibit acid-chromic behavior.…”
Section: Resultsmentioning
confidence: 99%
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“…H 3 L was chosen as the ligand to form the luminescent H 3 L/Tb 3+ gel due to its self-assembly ability 20,21 and its potential to sensitize Tb 3+ . 8,11 SR101 was selected as the energy acceptor because of its spectral overlap with the energy donor, enabling tuning of the emission color based on FRET platforms by adjusting the SR101 amount in the H 3 L/Tb 3+ gel. Considering that acid can inhibit the coordination of the carboxyl group with Tb 3+ and suppress the “antenna effect,” 8 we anticipated that the SR101-doped H 3 L/Tb 3+ gels would exhibit acid-chromic behavior.…”
Section: Resultsmentioning
confidence: 99%
“…8,11 SR101 was selected as the energy acceptor because of its spectral overlap with the energy donor, enabling tuning of the emission color based on FRET platforms by adjusting the SR101 amount in the H 3 L/Tb 3+ gel. Considering that acid can inhibit the coordination of the carboxyl group with Tb 3+ and suppress the “antenna effect,” 8 we anticipated that the SR101-doped H 3 L/Tb 3+ gels would exhibit acid-chromic behavior. The fluorescent peaks of Tb 3+ (green fluorescence) disappear after the addition of acid, leaving only the emission peaks of H 3 L (blue fluorescence) and/or partially quenched emission of SR101 (red fluorescence).…”
Section: Resultsmentioning
confidence: 99%
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