Effect of PbO on the spectral and thermo-optical properties of Nd 3+ -doped phosphate laser glass

Yin, Qianwen; Kang, Shimin; Wang, Xue; Li, Shunguang; He, Deyan; Hu, Lili

doi:10.1016/j.optmat.2017.01.036

Cited by 38 publications

(12 citation statements)

References 43 publications

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“…Iron phosphate glasses present outstanding properties enabling them to be used in various applications [1][2][3][4][5][6][7][8][9][10][11][12][13]. As an example, the great storage capacity of high wastes manifested by traditional iron phosphate glasses characterized by molar composition 60P 2 O 5 -40Fe 2 O 3 may be mentioned [14].…”

Section: Introductionmentioning

confidence: 99%

Correlation between glass transition effect and structural changes in multicomponent iron phosphate-silicate glasses

Kuczek

Jeleń

Sułowska

et al. 2019

J Therm Anal Calorim

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Iron phosphate-silicate glasses from P 2 O 5-SiO 2-K 2 O-MgO-CaO-Fe 2 O 3 system were subjected to the thermal and spectroscopic studies in order to gain information about their structure and thermal behavior in the range of glass transition effect. Research includes results obtained via DSC, MIR and DRIFT spectroscopy. Designated values of glass transition temperature and specific heat change slightly increases with Fe 2 O 3 incorporation. Spectra collected during thermal treatment of glasses containing 2 and 30 mol% Fe 2 O 3 exhibited various changes. Fe 2 O 3 addition affected the glass structure by its reinforcement and led to its preservation during thermal treatment. The connection between density, molar volume, oxygen packing density and the chemical composition's alteration were also established because of the direct dependence of physical properties and the structure. Obtained results supported thermal and spectroscopic studies. Conducted research is considered as a contribution to the knowledge about the family of iron phosphate glasses, which are known from their interesting properties and widely used applications.

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Section: Introductionmentioning

confidence: 99%

Correlation between glass transition effect and structural changes in multicomponent iron phosphate-silicate glasses

Kuczek

Jeleń

Sułowska

et al. 2019

J Therm Anal Calorim

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“…The main boost towards the manufacturing of highly efficient RE-doped phosphate glasses occurred for the development of extreme high-power lasers for the study of nuclear fusion, as the one developed at the National Ignition Facility at the LLNL laboratories in the USA [11]. Notwithstanding over 50 years of laser glass development and the availability of commercial products, there is still research interest in the fabrication of new materials with enhanced power scaling possibilities, low cost and easy processing [12,13]. Nowadays, the research is motivated by recent advances in laser-based technologies for several application fields, such as additive manufacturing, surgery or defense.…”

Section: Introductionmentioning

confidence: 99%

“…Low thermal expansion and optimal thermo-mechanical compatibility between the core and cladding materials of optical fibers become thus mandatory in order to develop highly efficient devices. Often, the scarce compatibility between commercially available active materials and passive cladding compositions leads to poor device efficiency, in consequence of the insurgence of mechanical stress [12]. An attempt to overcome such limitations was proposed by Fujimoto and Nakatsuka [20,21] using silica glass.…”

Section: Introductionmentioning

confidence: 99%

Nd-doped phosphate glass cane laser: from materials fabrication to power scaling tests

Ceci-Ginistrelli

Smith

Pugliese

et al. 2017

Journal of Alloys and Compounds

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“…Figure A reveals the linear expansion of TFP glass in the temperature range of 30‐150°C. The linear CTE is calculated by the Expression :…”

Section: Resultsmentioning

confidence: 99%

Continuously tunable broadband emission of Mn²⁺‐doped low‐melting point Sn–F–P–O glasses for warm white light‐emitting diodes

et al. 2018

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Tin fluorophosphate (TFP) glass, which can be used to manufacture a phosphor‐in‐glass (PiG) for achieving high‐power white light‐emitting diodes (w‐LEDs), has attracted a great deal of attention because of its low‐melting point. Mn2+‐doped ultralow glass transition temperature (~122°C) Sn–F–P–O glasses were prepared to achieve broadband visible light emission from 390 to 720 nm. By controlling the concentration of MnO, the emission color of the TFP glass can be adjusted from blue/cool white to warm white/red. In particular, 0.2 mol% MnO‐doped TFP glass, which yields bright and warm white light and has ultralow glass transition temperature and thermal stability, has a promising application prospect in the field of high‐power w‐LEDs.

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Effect of PbO on the spectral and thermo-optical properties of Nd 3+ -doped phosphate laser glass

Cited by 38 publications

References 43 publications

Correlation between glass transition effect and structural changes in multicomponent iron phosphate-silicate glasses

Correlation between glass transition effect and structural changes in multicomponent iron phosphate-silicate glasses

Nd-doped phosphate glass cane laser: from materials fabrication to power scaling tests

Continuously tunable broadband emission of Mn²⁺‐doped low‐melting point Sn–F–P–O glasses for warm white light‐emitting diodes

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Effect of PbO on the spectral and thermo-optical properties of Nd 3+ -doped phosphate laser glass

Cited by 38 publications

References 43 publications

Correlation between glass transition effect and structural changes in multicomponent iron phosphate-silicate glasses

Correlation between glass transition effect and structural changes in multicomponent iron phosphate-silicate glasses

Nd-doped phosphate glass cane laser: from materials fabrication to power scaling tests

Continuously tunable broadband emission of Mn2+‐doped low‐melting point Sn–F–P–O glasses for warm white light‐emitting diodes

Contact Info

Product

Resources

About

Continuously tunable broadband emission of Mn²⁺‐doped low‐melting point Sn–F–P–O glasses for warm white light‐emitting diodes