Future prospects of fluoride based upconversion nanoparticles for emerging applications in biomedical and energy harvesting

Tiwari, S.P.; Maurya, S. K.; Yadav, Ram Sagar; Kumar, Abhishek; Kumar, Vinod; Joubert, M.-F.; Swart, H.C.

doi:10.1116/1.5044596

Cited by 39 publications

(21 citation statements)

References 123 publications

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“…On the other hand, upconversion luminescence is an optical non-linear anti-Stokes process, which features conversion of low energy photons into high energy by utilizing the quantum mechanically forbidden 4f → 4f optical transitions of R 3+ ions while doped in crystallite host materials [24][25][26][27] . Over the past decade, researchers have shown extensive range of advanced applications of upconversion nanoparticles, spanning from background noise-free biological imaging, theranostics, drug-delivery to photo-voltaic devices, and photochemical reactions [28][29][30][31][32][33] . To date, several excellent reviews on R 3+ doped upconversion luminescence have been published to summarize the progress in this field along with demonstration of advanced applications 34,35 .…”

mentioning

confidence: 99%

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

Mahata

Koppe

Kumar

et al. 2020

Sci Rep

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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 dynamics were studied with the help of dependence of upconversion luminescence on excitation power and measuring-temperature. to understand the nature of occupancies of the Ho 3+ ions at the ti-and Ba-sites, we performed site-selective, time-resolved spectroscopic measurements at various crystal phases. Based on the lifetime analysis, it is inferred that the Ho 3+ ions are present at two types of sites in barium titanate lattice. One of those is the 6-coordinated Ti-site of low symmetry, while the other one is the 12-coordinated Ba-site of higher symmetry. The upconversion emission of the nanocrystals are found to be temperature-sensitive (12 to 300 K), indicating possible use as a self-referenced temperature probe. An analysis of the temperature dependent emissions from 5 f 4 and 5 S 2 levels of Ho 3+ ions, gives a maximum value of temperature sensitivity ~ 0.0095 K −1 at 12 K. Furthermore, we observe a sharp change in the luminescence intensity at ~180 K due to a ferroelectric phase change of the sample. the correlation of upconversion luminescence with the results of X-ray diffraction and second harmonic generation at different crystal phases implies that the frequency upconversion may be used as a probe of structural change of the lattice. Ferroelectric titanates of a perovskite ABO 3 structure (where A and B are usually divalent and tetravalent cations, respectively) are widely used in many applications due to their excellent dielectric, magnetic and electro-optic properties 1-4. In general, a perfect perovskite has a cubic unit cell of a simple crystal structure of a CaTiO 3mineral perovskite. Here, the tolerance factor (T f) governs the nature of distortions from its ideal shape, e.g., a rhombohedral or an orthorhombic GdFeO 3-type crystal structure is observed on effectively small T f ≤ 1, while polytypic structures turn up at T f > 1. The wide range of physical properties of ABO 3-type oxides are mainly dependent on the relative sizes of the ions, electronic configuration of the ions, dopants and substituents 5,6. For example, Pandey et al. have investigated structure and electronic/magnetic properties of such oxides BiFeO 3 − PbTiO 3 , BiFeO 3-BaTiO 3 , etc. in this series 7,8. Small ABO 3 crystallites are particularly used in liquefied petroleum gas sensing and humidity sensing 9-12. Further, barium titanate (BaTiO 3) is an important nonlinear optical material which has numerous applications in light modulation, optical memory storage, optical switching and electro-optic phase modulator 13-16. Additio...

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confidence: 99%

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

Mahata

Koppe

Kumar

et al. 2020

Sci Rep

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“…The structure parameters of our samples were refined using the starting parameters from Ref. (Zalkin and Templeton, 1953). Some most important parameters from Rietveld analysis (lattice constants, cell volume, profile R-factors, crystallite size, microstrain) are summarised in Table 1.…”

Section: Xrd Analysismentioning

confidence: 99%

“…In the last decades, lanthanide-doped up-conversion (UC) nanomaterials have attracted a lot of attention in the fields such as solid-state lasers, solar cells, temperature sensors, medical diagnostics, biomarkers, fiber-optic communication systems, ratiometric thermometry, etc. (Atabaev, 2019, Dramićanin, 2018, Escudero et al, 2017, Ho et al, 2019, Liu et al, 2011, Tiwari, 2018. These materials owe their popularity to their specific ability to convert near-infrared to high-energy photons (visible or ultraviolet), a process that results from the abundance of energy levels of 4f configurations (Atabaev, 2019, Auzel, 2003.…”

Section: Introductionmentioning

confidence: 99%

Structural, magnetic and up-conversion properties of YF3: Yb/Ln (Ln = Er, Tm, Ho) solid solutions

Aleksić

Barudžija

Mitrić

et al. 2020

Facta Univ Phys Chem Technol

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In this paper, we investigated YF3: Yb/Er, YF3: Yb/Tm, and YF3: Yb/Ho solid solutions prepared by reaction of an appropriate amount of oxides with ammonium difluoride (NH4HF2) as a fluorinating agent. These samples were characterized by Xray diffraction (XRD), magnetic measurements, and up-conversion (UC) photoluminescence spectra. The results show that all samples are single-phase and crystallize in an orthorhombic crystal structure of the ?-YF3 structure type. Above 100 K, the measured molar magnetic susceptibility was fitted by the Curie-Weiss law and the average effective magnetic moments for the observed samples were obtained. All the samples showed pure paramagnetic behavior. When doped with lanthanide elements (Yb/Er, Yb/Tm, Yb/Ho), YF3 solid solutions can emit characteristic green, red, blue, and near IR light under the excitation of a 980 nm laser diode.

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“…[158,159] In addition to the above mentioned applications, recently they found potential in area of vivo bioimaging, photodynamic therapy, photothermal therapy as well as deep 3D bioimaging due to wavelength tuning. [160,161] When the photo-responsive compounds and polymeric materials coupled with UCNPs they acts as a suitable candidates for drug delivery systems. With the utilization of UC/DC materials into solar photovoltaics, the maximum power conversion efficiency that can be achieved may be slightly higher than 30%.…”

Section: Future Scope Of Rare Earth Doped Materialsmentioning

confidence: 99%

“…when these rare earth doped luminescent materials are coupled with commercially available wide band gap semiconductors such as TiO 2 , it helps in fast degradation of inorganic and organic pollutants and water splitting under visible light irradiation . In addition to the above mentioned applications, recently they found potential in area of vivo bioimaging, photodynamic therapy, photothermal therapy as well as deep 3D bioimaging due to wavelength tuning . When the photo‐responsive compounds and polymeric materials coupled with UCNPs they acts as a suitable candidates for drug delivery systems.…”

Section: Future Scope Of Rare Earth Doped Materialsmentioning

confidence: 99%

Recent Progress and Emerging Applications of Rare Earth Doped Phosphor Materials for Dye‐Sensitized and Perovskite Solar Cells: A Review

Rajeswari

Islavath

Raghavender

et al. 2019

The Chemical Record

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Although the efficiency of Dye‐sensitized and Perovskite solar cell is still below the performance level of market dominance silicon solar cells, in last few years they have grabbed significant attention because of their fabrication ease using low‐cost materials, and henceforth these cells are considered as a promising alternative to commercial photovoltaic devices. However, third generation solar cells have significant absorption in the visible region of solar spectrum, which confines their power conversion efficiency. Subsequently, the performance of current photovoltaics is significantly hampered by the transmission loss of sub‐band‐gap photons. To overcome these issues, rare earth doped luminescent materials is the favorable route followed to convert these transmitted sub‐band‐gap photons into above‐band‐gap light, where solar cells typically have significant light‐scattering effects. Moreover, the rare earth based down/up conversion material facilitates the improvement in sensitization, light‐scattering and device stability of these devices. This review provides insight into the application of various down/up conversion materials for Dye‐sensitized and perovskite solar cell applications. Additionally, the paper discusses the techniques to improve the photovoltaic performance in terms of current density and photo voltage in detail.

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Future prospects of fluoride based upconversion nanoparticles for emerging applications in biomedical and energy harvesting

Cited by 39 publications

References 123 publications

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

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

Structural, magnetic and up-conversion properties of YF3: Yb/Ln (Ln = Er, Tm, Ho) solid solutions

Recent Progress and Emerging Applications of Rare Earth Doped Phosphor Materials for Dye‐Sensitized and Perovskite Solar Cells: A Review

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