2017
DOI: 10.1016/j.optmat.2016.06.004
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Nd 3+ ions in nanomedicine: Perspectives and applications

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Cited by 66 publications
(31 citation statements)
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“…7),8) Relatively few fluorescence probes emit light in the NIR-II window, and include single-walled carbon nano-tubes, 9) cadmium-based quantum dots, 10) and large aromatic organic probes. 11) Consequently, an intense effort is underway to develop new nontoxic and biocompatible NIR-II probes for in vivo imaging. 12) Nd 3+ ions are well-suited for NIR-II optical imaging owing to their strong emission bands centered at 900 nm, 1060 and 1340 nm that correspond to transitions from the excited state 4 F 3/2 to different 4 I J states (J = 9/2, 11/2, 13/2).…”
mentioning
confidence: 99%
“…7),8) Relatively few fluorescence probes emit light in the NIR-II window, and include single-walled carbon nano-tubes, 9) cadmium-based quantum dots, 10) and large aromatic organic probes. 11) Consequently, an intense effort is underway to develop new nontoxic and biocompatible NIR-II probes for in vivo imaging. 12) Nd 3+ ions are well-suited for NIR-II optical imaging owing to their strong emission bands centered at 900 nm, 1060 and 1340 nm that correspond to transitions from the excited state 4 F 3/2 to different 4 I J states (J = 9/2, 11/2, 13/2).…”
mentioning
confidence: 99%
“…and 695 nm ( 5 D 0 → 7 F 4 transitions). Nd is a typical NIR emitter for subtissue imaging, when excited by 730 nm the NdL 3 @BPQDs emit at 903 nm ( 4 F 3/2 → 4 I 9/2 transitions) and 1061 nm ( 4 F 3/2 → 4 I 11/2 transitions). Because the coordination between lanthanide and BP is attributed to the orbit hybrid of Ln 5d and P 2p, luminescence of LnL 3 @BP induced by the 4f transition of Ln does not change the original characteristics of the corresponding lanthanide ions (Figure S9, Supporting Information).…”
Section: Methodsmentioning
confidence: 99%
“…Neodymium‐doped (Nd 3+ ) FAp (Nd:FAp) was first examined in the 1960s, when Czochralski grown Nd:FAp rods were investigated regarding their lasing properties induced by the efficient 1.06 μm laser transition of Nd 3+ ions . Nowadays, Nd 3+ ‐doping of diverse nanoparticle (NP) host materials is used to exploit the unique photoluminescence (PL) properties of Nd 3+ for biomedical imaging . The PL excitation and emission of Nd 3+ ‐doped NPs is achieved in the first and second biological window (I‐BW 650‐950 nm, II‐BW 1000‐1350 nm), a favorable spectral region for in vivo imaging, in which the irradiation penetrates through biological tissue .…”
Section: Introductionmentioning
confidence: 99%
“…Nowadays, Nd 3+ ‐doping of diverse nanoparticle (NP) host materials is used to exploit the unique photoluminescence (PL) properties of Nd 3+ for biomedical imaging . The PL excitation and emission of Nd 3+ ‐doped NPs is achieved in the first and second biological window (I‐BW 650‐950 nm, II‐BW 1000‐1350 nm), a favorable spectral region for in vivo imaging, in which the irradiation penetrates through biological tissue . Besides the optical properties, also the magnetic properties of FAp can be tailored at will.…”
Section: Introductionmentioning
confidence: 99%