Upconversion photoluminescence of Ho3+-Yb3+ doped barium titanate nanocrystallites: Optical tools for structural phase detection and temperature probing

Abstract: Authors have explored the photo-physical properties of Ho 3+-Yb 3+ doped Batio 3 nanocrystals and proposed an intuitive method to probe temperature and crystal phase structure of the matrix. Structural phase change of doped crystals was analyzed in terms of their X-ray diffraction, and it was confirmed through second harmonic generation. We give insights on upconversion of energy of lightemission in Ho 3+-Yb 3+ : Batio 3 nanocrystals upon a 980 nm laser-light excitation and subsequently, the excited state dyna… Show more

“…[53][54][55][56][57][58][59][60][61][62][63][64] The classical luminescence from the Ho III f-f electronic transitions is weak, 65,66 and an alternative up-conversion luminescence requires the presence of other 4f metal ions. 67 In contrast, Ho 3+ ions exhibit an efficient luminescent re-absorption effect due to the numerous absorption peaks in the visible range. 68,69 Due to the presence of hot bands and variable thermal dependence of electronic transitions, the Ho III absorption peaks can be strongly T-dependent, 70,71 which is a tool for optical thermometry.…”

Holmium(iii) molecular nanomagnets for optical thermometry exploring the luminescence re-absorption effect

“…[53][54][55][56][57][58][59][60][61][62][63][64] The classical luminescence from the Ho III f-f electronic transitions is weak, 65,66 and an alternative up-conversion luminescence requires the presence of other 4f metal ions. 67 In contrast, Ho 3+ ions exhibit an efficient luminescent re-absorption effect due to the numerous absorption peaks in the visible range. 68,69 Due to the presence of hot bands and variable thermal dependence of electronic transitions, the Ho III absorption peaks can be strongly T-dependent, 70,71 which is a tool for optical thermometry.…”

Holmium(iii) molecular nanomagnets for optical thermometry exploring the luminescence re-absorption effect

“…This is referred to as an electronic 4f–4f transition 2 F 7/2 → 2 F 5/2 . Also, this type of transition is considered as ground-state absorption (GSA) . An excited-state energy transfer (ET-1) occurs from Yb 3+ to Ho 3+ , which populates the level 5 I 6 , and also, non-resonance GSA occurs in Ho 3+ via 5 I 8 → 5 I 6 transition.…”

“…Also, this type of transition is considered as ground-state absorption (GSA). 21 An excitedstate energy transfer (ET-1) occurs from Yb 3+ to Ho 3+ , which populates the level 5 I 6 , and also, non-resonance GSA occurs in Ho 3+ via 5 I 8 → 5 I 6 transition. Then, an excited-state absorption (ESA) occurs from 5 I 6 to 5 F 4 / 5 S 2 of Ho 3+ ions.…”

Mesoporous NaGdF₄/Ho–Yb@m-SiO₂ Upconversion Nanophosphors as a Potent Theranostic Probe

“…9 The UC spectra of (a) NYF-H 1 Y 3 MCs and (b) NYF-H 1 Y 3 /PAN fibers at 980 nm excitation with 400 mW power from 313 to 393 K. Boltzmann distribution law. 55 The FIR of the green UC emission at 539 and 548 nm can be expressed as: 56,57 FIR ¼…”

The thermo-optic relevance of Ho³⁺in fluoride microcrystals embedded in electrospun fibers