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Article Dans Une Revue Journal of the American Chemical Society Année : 2022

Tunable Optical Molecular Thermometers Based on Metallacrowns

Résumé

The effect of ligands’ energy levels on thermal dependence of lanthanide emission was examined to create new molecular nanothermometers. A series of Ln2Ga8L8′L8″ metallacrowns (shorthand Ln2L8′), where Ln = Gd3+, Tb3+, or Sm3+ (H3L′ = salicylhydroxamic acid (H3shi), 5-methylsalicylhydroxamic acid (H3mshi), 5-methoxysalicylhydroxamic acid (H3moshi), and 3-hydroxy-2-naphthohydroxamic acid (H3nha)) and H2L″ = isophthalic acid (H2iph), was synthesized and characterized. Within the series, ligand-centered singlet state (S1) energy levels ranged from 23,300 to 27,800 cm–1, while triplet (T1) energy levels ranged from 18,150 to 21,980 cm–1. We demonstrated that the difference between T1 levels and relevant energies of the excited 4G5/2 level of Sm3+ (17,800 cm–1) and 5D4 level of Tb3+ (20,400 cm–1) is the major parameter controlling thermal dependence of the emission intensity via the back energy transfer mechanism. However, when the energy difference between S1 and T1 levels is small (below 3760 cm–1), the S1 → T1 intersystem crossing (and its reverse, S1 ← T1) mechanism contributes to the thermal behavior of metallacrowns. Both mechanisms affect Ln3+-centered room-temperature quantum yields with values ranging from 2.07(6)% to 31.2(2)% for Tb2L8′ and from 0.0267(7)% to 2.27(5)% for Sm2L8′. The maximal thermal dependence varies over a wide thermal range (ca. 150–350 K) based on energy gaps between relevant ligand-based and lanthanide-based electronic states. By mixing Tb2moshi8′ with Sm2moshi8′ in a 1:1 ratio, an optical thermometer with a relative thermal sensitivity larger than 3%/K at 225 K was created. Other temperature ranges are also accessible with this approach.
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Dates et versions

hal-04040491 , version 1 (22-03-2023)

Identifiants

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Elvin Salerno, Albano Carneiro Neto, Svetlana Eliseeva, Miguel Hernández-Rodríguez, Jacob Lutter, et al.. Tunable Optical Molecular Thermometers Based on Metallacrowns. Journal of the American Chemical Society, 2022, 144 (40), pp.18259-18271. ⟨10.1021/jacs.2c04821⟩. ⟨hal-04040491⟩
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