Bi-functional heater-thermometer Nd3+-doped nanoparticles with multiple temperature sensing parameters

I.E. Kolesnikov, A.A. Kalinichev, D.V. Mamonova, M.A. Kurochkin, E.Yu. Kolesnikov, E. Landeranta, M.D. Mikhailov

Research output

Abstract

Achieving a combination of real-time diagnosis and therapy in a single platform with sensitive thermometry and efficient heat production is a crucial step towards controllable photothermal therapy. Here, Nd3+-doped Y2O3 nanoparticles prepared using the combined Pechini-foaming technique operating in the first and second biological windows were demonstrated as thermal sensors within the wide temperature range of 123–873 K, and as heaters with a temperature increase of 100 K. Thermal sensing was performed based on various approaches: luminescence intensity ratio (electronic levels; Stark sublevels), spectral line position and line bandwidth were used as temperature-dependent parameters. The applicability of these sensing parameters, along with relative thermal sensitivity and temperature resolution, are discussed and compared. The influence of Nd3+-doping concentration on thermometer and heater efficiency was also investigated.
Original languageEnglish
JournalNanotechnology
Volume30
Issue number14
Early online date9 Feb 2019
Publication statusPublished - 2019

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Thermometers
Nanoparticles
Temperature
Luminescence
Doping (additives)
Bandwidth
Hot Temperature
Sensors

Cite this

Kolesnikov, I. E., Kalinichev, A. A., Mamonova, D. V., Kurochkin, M. A., Kolesnikov, E. Y., Landeranta, E., & Mikhailov, M. D. (2019). Bi-functional heater-thermometer Nd3+-doped nanoparticles with multiple temperature sensing parameters. Nanotechnology, 30(14).
Kolesnikov, I.E. ; Kalinichev, A.A. ; Mamonova, D.V. ; Kurochkin, M.A. ; Kolesnikov, E.Yu. ; Landeranta, E. ; Mikhailov, M.D. / Bi-functional heater-thermometer Nd3+-doped nanoparticles with multiple temperature sensing parameters. In: Nanotechnology. 2019 ; Vol. 30, No. 14.
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abstract = "Achieving a combination of real-time diagnosis and therapy in a single platform with sensitive thermometry and efficient heat production is a crucial step towards controllable photothermal therapy. Here, Nd3+-doped Y2O3 nanoparticles prepared using the combined Pechini-foaming technique operating in the first and second biological windows were demonstrated as thermal sensors within the wide temperature range of 123–873 K, and as heaters with a temperature increase of 100 K. Thermal sensing was performed based on various approaches: luminescence intensity ratio (electronic levels; Stark sublevels), spectral line position and line bandwidth were used as temperature-dependent parameters. The applicability of these sensing parameters, along with relative thermal sensitivity and temperature resolution, are discussed and compared. The influence of Nd3+-doping concentration on thermometer and heater efficiency was also investigated.",
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Kolesnikov, IE, Kalinichev, AA, Mamonova, DV, Kurochkin, MA, Kolesnikov, EY, Landeranta, E & Mikhailov, MD 2019, 'Bi-functional heater-thermometer Nd3+-doped nanoparticles with multiple temperature sensing parameters', Nanotechnology, vol. 30, no. 14.

Bi-functional heater-thermometer Nd3+-doped nanoparticles with multiple temperature sensing parameters. / Kolesnikov, I.E.; Kalinichev, A.A.; Mamonova, D.V.; Kurochkin, M.A.; Kolesnikov, E.Yu.; Landeranta, E.; Mikhailov, M.D.

In: Nanotechnology, Vol. 30, No. 14, 2019.

Research output

TY - JOUR

T1 - Bi-functional heater-thermometer Nd3+-doped nanoparticles with multiple temperature sensing parameters

AU - Kolesnikov, I.E.

AU - Kalinichev, A.A.

AU - Mamonova, D.V.

AU - Kurochkin, M.A.

AU - Kolesnikov, E.Yu.

AU - Landeranta, E.

AU - Mikhailov, M.D.

PY - 2019

Y1 - 2019

N2 - Achieving a combination of real-time diagnosis and therapy in a single platform with sensitive thermometry and efficient heat production is a crucial step towards controllable photothermal therapy. Here, Nd3+-doped Y2O3 nanoparticles prepared using the combined Pechini-foaming technique operating in the first and second biological windows were demonstrated as thermal sensors within the wide temperature range of 123–873 K, and as heaters with a temperature increase of 100 K. Thermal sensing was performed based on various approaches: luminescence intensity ratio (electronic levels; Stark sublevels), spectral line position and line bandwidth were used as temperature-dependent parameters. The applicability of these sensing parameters, along with relative thermal sensitivity and temperature resolution, are discussed and compared. The influence of Nd3+-doping concentration on thermometer and heater efficiency was also investigated.

AB - Achieving a combination of real-time diagnosis and therapy in a single platform with sensitive thermometry and efficient heat production is a crucial step towards controllable photothermal therapy. Here, Nd3+-doped Y2O3 nanoparticles prepared using the combined Pechini-foaming technique operating in the first and second biological windows were demonstrated as thermal sensors within the wide temperature range of 123–873 K, and as heaters with a temperature increase of 100 K. Thermal sensing was performed based on various approaches: luminescence intensity ratio (electronic levels; Stark sublevels), spectral line position and line bandwidth were used as temperature-dependent parameters. The applicability of these sensing parameters, along with relative thermal sensitivity and temperature resolution, are discussed and compared. The influence of Nd3+-doping concentration on thermometer and heater efficiency was also investigated.

UR - https://iopscience.iop.org/article/10.1088/1361-6528/aafcb8

M3 - Article

VL - 30

JO - Nanotechnology

JF - Nanotechnology

SN - 0957-4484

IS - 14

ER -

Kolesnikov IE, Kalinichev AA, Mamonova DV, Kurochkin MA, Kolesnikov EY, Landeranta E et al. Bi-functional heater-thermometer Nd3+-doped nanoparticles with multiple temperature sensing parameters. Nanotechnology. 2019;30(14).