Ag nanoparticle effects on the thermoluminescent properties of monoclinic ZrO<sub>2</sub>exposed to ultraviolet and gamma radiation

Villa-Sánchez, Gerardo; Mendoza-Anaya, D.; Gutiérrez-Wing, C.; Pérez-Hernández, R.; González-Martínez, P.R.; Ángeles–Chávez, C.

doi:10.1088/0957-4484/18/26/265703

Cited by 24 publications

(7 citation statements)

References 17 publications

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“…In this context, nanotechnology can produce composites containing stable nanoparticles with controlled size, , for application as radiation sensors. − Once again, alanine stands out. At the same time that it is suitable for radiation detection, it can be utilized as a reducing, capping, and stabilizing agent for the production of silver nanoparticles.…”

Section: Introductionmentioning

confidence: 99%

Synthesis and Characterization of Gold/Alanine Nanocomposites with Potential Properties for Medical Application as Radiation Sensors

Guidelli

Ramos

Zaniquelli

et al. 2012

ACS Appl. Mater. Interfaces

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Radiation dose assessment is essential for several medical treatments and diagnostic procedures. In this context, nanotechnology has been used in the development of improved radiation sensors, with higher sensitivity as well as smaller sizes and energy dependence. This paper deals with the synthesis and characterization of gold/alanine nanocomposites with varying mass percentage of gold, for application as radiation sensors. Alanine is an excellent stabilizing agent for gold nanoparticles because the size of the nanoparticles does not augment with increasing mass percentage of gold, as evidenced by UV-vis spectroscopy, dynamic light scattering, and transmission electron microscopy. X-ray diffraction patterns suggest that the alanine crystalline orientation undergoes alterations upon the addition of gold nanoparticles. Fourier transform infrared spectroscopy indicates that there is interaction between the gold nanoparticles and the amine group of the alanine molecules, which may be the reason for the enhanced stability of the nanocomposite. The application of the nanocomposites as radiation detectors was evaluated by the electron spin resonance technique. The sensitivity is improved almost 3 times in the case of the nanocomposite containing 3% (w/w) gold, so it can be easily tuned by changing the amount of gold nanoparticles in the nanocomposites, without the size of the nanoparticles influencing the radiation absorption. In conclusion, the featured properties, such as homogeneity, nanoparticle size stability, and enhanced sensitivity, make these nanocomposites potential candidates for the construction of small-sized radiation sensors with tunable sensitivity for application in several medical procedures.

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Section: Introductionmentioning

confidence: 99%

Synthesis and Characterization of Gold/Alanine Nanocomposites with Potential Properties for Medical Application as Radiation Sensors

Guidelli

Ramos

Zaniquelli

et al. 2012

ACS Appl. Mater. Interfaces

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“…Among different known techniques of production, the most popular techniques are wet chemical techniques including sol gel [19], hydrothermal [20], precipitation and co-precipitation [10,21–23] and solution combustion synthesis [12,24,25] rather than conventional solid state method that usually applied to prepare bulk materials [13,26–29]. The conventional solid state reaction method leads to several shortcoming such as high sintering temperatures, poor homogeneity and larger grain size growth [18,30].…”

Section: Introductionmentioning

confidence: 99%

Facile Synthesis of Calcium Borate Nanoparticles and the Annealing Effect on Their Structure and Size

Erfani

Saion

Soltani

et al. 2012

IJMS

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Calcium borate nanoparticles have been synthesized by a thermal treatment method via facile co-precipitation. Differences of annealing temperature and annealing time and their effects on crystal structure, particle size, size distribution and thermal stability of nanoparticles were investigated. The formation of calcium borate compound was characterized by X-ray diffraction (XRD) and Fourier Transform Infrared spectroscopy (FTIR), Transmission electron microscopy (TEM), and Thermogravimetry (TGA). The XRD patterns revealed that the co-precipitated samples annealed at 700 °C for 3 h annealing time formed an amorphous structure and the transformation into a crystalline structure only occurred after 5 h annealing time. It was found that the samples annealed at 900 °C are mostly metaborate (CaB2O4) nanoparticles and tetraborate (CaB4O7) nanoparticles only observed at 970 °C, which was confirmed by FTIR. The TEM images indicated that with increasing the annealing time and temperature, the average particle size increases. TGA analysis confirmed the thermal stability of the annealed samples at higher temperatures.

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“…The TL glow curves for zirconia, synthesized in different phases and using different ionizing radiations, have been reported by many researchers [28][29][30][31][32]. The monoclinic phase shows low-temperature glow peaks with high intensity but suffers a critical disadvantage of fading, limiting its use in radiation dosimetry [33].…”

Section: Some Authors Have Listed Various Factors Like Precipitation ...mentioning

confidence: 99%

Electronic structure and defect‐induced luminescence study of phase‐stabilized t‐ZrO₂ nanocrystals

et al. 2023

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Luminescent tetragonal‐ZrO2 (t‐ZrO2) nanocrystals were synthesized using an optimized combustion method without post‐synthesis annealing and characterized using X‐ray diffraction, electron microscopy, Raman spectroscopy, X‐ray photoelectron spectroscopy, UV–Vis. spectroscopy, photoluminescence spectroscopy, thermoluminescence (TL), and vibrating sample magnetometry. The as‐synthesized t‐ZrO2 nanocrystals have a bandgap of 4.65 eV and exhibit defect‐assisted blue emission (Commission Internationale de I'Elcairage coordinates 0.2294, 0.1984) when excited at 270 nm. The defect states were qualitatively and quantitatively analyzed using TL after irradiating nanocrystals with γ‐ and UV radiations at various doses. The TL glow curves show intense emission in the high‐temperature region from 523 to 673 K for both UV‐ and γ‐irradiated samples; however, another less‐intense TL peak was also observed in the low‐temperature region from 333 to 453 K with γ irradiation at higher doses, indicating the formation of shallow trapping states. The activation energies, frequency factor, and order of kinetics were estimated using the computerized glow curve deconvolution method for the shallow and deep traps for γ‐ and UV‐irradiated samples. The present study shows that phase‐stabilized t‐ZrO2 nanocrystals are potential candidates for luminescence‐based applications.

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Ag nanoparticle effects on the thermoluminescent properties of monoclinic ZrO₂exposed to ultraviolet and gamma radiation

Cited by 24 publications

References 17 publications

Synthesis and Characterization of Gold/Alanine Nanocomposites with Potential Properties for Medical Application as Radiation Sensors

Synthesis and Characterization of Gold/Alanine Nanocomposites with Potential Properties for Medical Application as Radiation Sensors

Facile Synthesis of Calcium Borate Nanoparticles and the Annealing Effect on Their Structure and Size

Electronic structure and defect‐induced luminescence study of phase‐stabilized t‐ZrO₂ nanocrystals

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Ag nanoparticle effects on the thermoluminescent properties of monoclinic ZrO2exposed to ultraviolet and gamma radiation

Cited by 24 publications

References 17 publications

Synthesis and Characterization of Gold/Alanine Nanocomposites with Potential Properties for Medical Application as Radiation Sensors

Synthesis and Characterization of Gold/Alanine Nanocomposites with Potential Properties for Medical Application as Radiation Sensors

Facile Synthesis of Calcium Borate Nanoparticles and the Annealing Effect on Their Structure and Size

Electronic structure and defect‐induced luminescence study of phase‐stabilized t‐ZrO2 nanocrystals

Contact Info

Product

Resources

About

Ag nanoparticle effects on the thermoluminescent properties of monoclinic ZrO₂exposed to ultraviolet and gamma radiation

Electronic structure and defect‐induced luminescence study of phase‐stabilized t‐ZrO₂ nanocrystals