Showing total 21 results

1. The Influence of Retreated Lithium Slag with a High Content of Alkali, Sulfate and Fluoride on the Composition and the Microstructure of Autoclaved Aerated Concrete.

Author

Zhong, Dongqing, Wei, Shihong, Zhou, Hao, He, Xiaohang, Qian, Binbin, Ma, Bing, Hu, Yueyang, and Ren, Xuehong

Subjects

AIR-entrained concrete, SLAG, LITHIUM, MICROSTRUCTURE, FLY ash, FLUORIDES, BARIUM fluoride

Abstract

In this paper, the possibility of retreated lithium slag (RTLS) with a high content of alkali, sulfate and fluoride as a partial replacement for fly ash (FA) to produce autoclaved aerated concrete (AAC) was investigated. The influence of the RTLS dosage on the AAC performance were examined. The composition and microstructure of hydrates as well as the microstructure of the RTLS-FA-based AAC compositions were determined by XRD, FTIR, TG-DSC and SEM. The results illustrated that the incorporation of RTLS changed the crystal structure and the microstructure of the tobermorite. With increased RTLS contents, the morphology of tobermorite was changed, and the grass-like tobermorite gradually transformed into network-like tobermorite. The newly formed tobermorite improved the mechanical performance of the AAC. Compared with the RTLS10, the content of tobermorite in the RTLS30 increased by 8.6%. [ABSTRACT FROM AUTHOR]

Published

2024

2. Influence of source parameters on the longitudinal phase-space distribution of a pulsed cryogenic beam of barium fluoride molecules.

Author

Mooij, M C, Bethlem, H L, Boeschoten, A, Borschevsky, A, Esajas, K, Fikkers, T H, Hoekstra, S, van Hofslot, J W F, Jungmann, K, Marshall, V R, Meijknecht, T B, Timmermans, R G E, Touwen, A, Ubachs, W, Willmann, L, and Yin, Y

Subjects

BARIUM fluoride, GAS dynamics, MOLECULAR beams, PHASE space, DUST, MOLECULES, ELECTRIC dipole moments

Abstract

Recently, we have demonstrated a method to record the longitudinal phase-space distribution of a pulsed cryogenic buffer gas cooled beam of barium fluoride molecules with high resolution. In this paper, we use this method to determine the influence of various source parameters. Besides the expected dependence on temperature and pressure, the forward velocity of the molecules is strongly correlated with the time they exit the cell, revealing the dynamics of the gas inside the cell. Three observations are particularly noteworthy: (1) The velocity of the barium fluoride molecules increases rapidly as a function of time, reaches a maximum 50–200 µ s after the ablation pulse and then decreases exponentially. We attribute this to the buffer gas being heated up by the plume of hot atoms released from the target by the ablation pulse and subsequently being cooled down via conduction to the cell walls. (2) The time constant associated with the exponentially decreasing temperature increases when the source is used for a longer period of time, which we attribute to the formation of a layer of isolating dust on the walls of the cell. By thoroughly cleaning the cell, the time constant is reset to its initial value. (3) The velocity of the molecules at the trailing end of the molecular pulse depends on the length of the cell. For short cells, the velocity is significantly higher than expected from the sudden freeze model. We attribute this to the target remaining warm over the duration of the molecular pulse giving rise to a temperature gradient within the cell. Our observations will help to optimize the source parameters for producing the most intense molecular beam at the target velocity. [ABSTRACT FROM AUTHOR]

Published

2024

3. Design, analysis and validation of pinnacles impedance FSS absorber based on La-doped mullite ceramic.

Author

Yang, Xianzhao, Gong, Guan, and Li, Xiangcheng

Subjects

*BARIUM fluoride, *DOPING agents (Chemistry), *MULLITE, *FREQUENCY selective surfaces, *IMPEDANCE matching, *CERAMICS

Abstract

The bandwidth adaptation factor (BAF), which is calculated as BW • (λ L - λ H): (d • f r), is a crucial evaluation parameter for designing ultrathin broadband absorbers. In this paper, a high BAF absorber is designed by utilizing an impedance frequency selective surface (FSS), which includes a six pinnacles FSS, a La-doped mullite ceramic dielectric layer and a metal backplane. The optimal numbers of pinnacled FSS is determined through comparison and optimization, and the power monitor results indicate that the main loss modes are electrical and ohmic loss. Subsequently, the impedance analysis reveals that the favourable absorption performance is attributed to good impedance matching and high loss coefficient. Furthermore, the observation of the current distribution on the surface confirms that the primary loss appears at the pinnacles. The proposed absorber has below −10 dB reflectivity in 12.26–18.00 GHz. Meanwhile, the BAF is 3.36 and the thickness is only 0.061 λ L (1.5 mm). The measured results are in good agreement with the simulation results, demonstrating an excellent BAF characteristic. [ABSTRACT FROM AUTHOR]

Published

2024

4. Spectroscopic properties and numerical analysis of novel erbium doped multi-component tellurite glasses.

Author

Wan, Rui, Guo, Chen, Li, Xianda, and Wang, Pengfei

Subjects

*BARIUM fluoride, *MID-infrared lasers, *ACTIVE medium, *NUMERICAL analysis, *INFRARED lasers, *FIBER lasers, *ABSORPTION cross sections, *ERBIUM

Abstract

In this paper, Er3+ doped TeO 2 -ZnF 2 -BaF 2 -KF-Ta 2 O 5 tellurite glasses with low hydroxyl content (∼0.03 × 10−19 cm−3) were investigated employing both glass composition and glass melting process optimization. The Raman spectra and physical properties were characterized to analyze the structure of the glasses. Under the pumping of 980 nm LD laser, intense up-conversion fluorescence at 1.5 and 2.7 μm of samples and their lifetimes were detected and analyzed, and the related transition mechanisms with gradient-varying Er3+ doping concentrations were discussed. The maximum absorption and emission cross section at 2.7 μm was calculated to be 6.4 × 10−21 cm2 and 6.8 × 10−21 cm2, correspondingly, which were higher than those of traditional tellurite glasses. Using the calculated and measured spectroscopic parameters of bulk tellurite glass, a dual-wavelength pumping model was established to verify the feasibility of mid-infrared laser output in similar tellurite glass fiber. Experimental results support the assertion that the Er3+ doped tellurite glasses hold promise as a candidate laser gain medium for mid-infrared fiber laser systems. [ABSTRACT FROM AUTHOR]

Published

2024

5. Compact NEXAFS System Based on Laser-Plasma Soft X-ray Light Source for the Analysis of Barium Edges in a B+BaF2 Optical Filter.

Author

FOK, T., WACHULAK, P., WARDZINSKA, M., BARTNIK, A., NYGA, P., NOWAK, M. P., and FIEDOROWICZ, H.

Subjects

BARIUM fluoride, X-ray absorption near edge structure, SOFT X rays, LIGHT filters, LIGHT sources, BARIUM, DIFFRACTION gratings, RADIATION absorption

Abstract

In this work, we present the results of the analysis performed with near edge absorption fine structure spectroscopy of barium edges in a B+BaF2 optical filter. The radiation was generated by a laser-plasma soft X-ray source based on a double-stream gas puff target. The use of a flat-field spectrometer based on a diffraction grating allowed us to collect the absorption spectra of the radiation transmitted by the analyzed optical filter. The results demonstrate the appearance of clear M-edges of barium (M4 and M5). [ABSTRACT FROM AUTHOR]

Published

2024

6. Kerr-Lens Mode-Locked Yb:BaF 2 Laser.

Author

Li, Zhi-Qiang, Lin, Zhang-Lang, Loiko, Pavel, Zeng, Huang-Jun, Zhang, Ge, Nie, Hai-Yu, Normani, Simone, Benayad, Abdelmjid, Camy, Patrice, Mateos, Xavier, Petrov, Valentin, and Chen, Weidong

Subjects

MODE-locked lasers, BARIUM fluoride, LASERS, SEMICONDUCTOR lasers, SOLID-state lasers, LASER pulses, INDIUM gallium arsenide

Abstract

We present sub-50 fs soliton pulse generation from a diode-pumped Kerr-lens mode-locked laser based on an Yb3+-doped BaF2 crystal. Utilizing a spatially single-mode, fiber-coupled InGaAs laser diode at 976 nm as a pump source, the Yb:BaF2 laser generates pulses as short as 46 fs at 1060.1 nm with an average output power of 45 mW at a pulse repetition rate of ~65.6 MHz via soft-aperture Kerr-lens mode locking. To the best of our knowledge, this represents the first demonstration of Kerr-lens mode-locked operation of the Yb:BaF2 crystal, as well as the shortest pulse duration ever achieved from any diode-pumped mode-locked laser based on an Yb3+-doped alkaline-earth fluoride crystal. [ABSTRACT FROM AUTHOR]

Published

2024

7. The Microstructure and Mechanical Properties of High Entropy Alloy CoCrFeNiMn Matrix with Cr 3 C 2 Reinforcement and Ag, BaF 2 /CaF 2 Solid Lubrication.

Author

Guo, Zhiming, Li, Jingdan, and Ren, Xiaoyan

Subjects

BARIUM fluoride, FACE centered cubic structure, MICROSTRUCTURE, ALLOYS, ENTROPY, BRITTLE fractures

Abstract

A series of CoCrFeNiMn high-entropy alloy matrix self-lubricating composites were prepared by spark plasma sintering. The composites are composed of an FCC phase, Cr7C3, Ag, and eutectic fluoride BaF2/CaF2 phases. The microstructure of the composites is uniform. The additional phases distribute along the boundary of equiaxed grains of the FCC phase. The compressive yield strength and fracture toughness decrease with the increase of eutectic fluoride BaF2/CaF2. The composites are susceptible to brittle cleavage fracture. [ABSTRACT FROM AUTHOR]

Published

2023

8. Spectral and Cathodoluminescence Decay Characteristics of the Ba 1−x Ce x F 2+x (x = 0.3–0.4) Solid Solution Synthesized by Precipitation from Aqueous Solutions and Fusion.

Author

Kuznetsov, Sergey V., Yasyrkina, Darya S., Valiev, Damir T., Stepanov, Sergey A., Alexandrov, Alexander A., Batygov, Sergey Kh., Voronov, Valeriy V., Konyushkin, Vasilii A., Nakladov, Andrey N., Ermakova, Julia A., and Fedorov, Pavel P.

Subjects

SOLID solutions, AQUEOUS solutions, CATHODOLUMINESCENCE, POTASSIUM fluoride, ELECTRONIC excitation, SINGLE crystals, SCINTILLATORS, EMBEDDING theorems

Abstract

Single-phase samples of the Ba1−xCexF2+x solid solution (x = 0.3–0.4) were synthesized by directional crystallization in the form of single crystals and by co-precipitation from aqueous nitrate solutions using potassium fluoride as a fluorinating agent in the form of nanopowders. The cathodoluminescence of the pressed powder samples was studied in comparison with the BaF2: Ce single crystals in 250–460 nm (2.7–5 eV) spectral range upon excitation by an electron accelerator. The cathodoluminescence spectra of the samples revealed a wide band in the range of 3.0–4.0 eV, which consists of two typical components of Ce3+ with decay time 23 ns in the case of single crystals and three decay times 27 ns, 140–170 ns, and ~600 ns in the case of pressed powders. The decay time of the short-wavelength component (27 ns) in the case of pressed powders is close to the lifetime of the excited state of the Ce3+ ion. The developed X-ray phosphors can be applied for embedding in diamonds for diamond–nanoparticle composite preparation. [ABSTRACT FROM AUTHOR]

Published

2023

9. Bulk Polystyrene-BaF 2 Composite Scintillators for Highly Efficient Radiation Detection.

Author

Li, Xiang, Deng, Mingxue, Shi, Yun, Qi, Xuejun, Wang, Shaohan, Lu, Yugui, Du, Yong, and Chen, Junfeng

Subjects

SCINTILLATORS, GAMMA rays, RADIATION, LUMINESCENCE, BARIUM fluoride, EMULSION polymerization

Abstract

Organic–inorganic composite scintillators, demonstrating advantages of easy large-area preparation and a high detection efficiency, have shown enormous potential application prospects in radiation detection and imaging. In this study, bulk polystyrene (PS) composite scintillators were successfully prepared by embedding inorganic BaF2 particles with a loading amount of up to 80 wt% during the polymerization process of the plastic scintillator. The inorganic BaF2 particles were uniformly dispersed in the organic matrix. With the increase of the loading amounts of BaF2 particles, the X-ray-excited luminescence intensity of the PS-BaF2 composite scintillators was about eight times higher than that of the commercial pure plastic scintillator. The scintillation counts under the gamma ray (59.5 KeV) irradiation also showed that the detection efficiency was obviously enhanced by BaF2 particle loading. More importantly, their scintillation pulse retains the decay kinetics of the organic matrix without loading the slow-decay component of BaF2. This work provides a promising solution for the application of the PS-BaF2 composite scintillator in high-efficiency radiation detection and large-area imaging. [ABSTRACT FROM AUTHOR]

Published

2023

10. Elimination of the contaminant fluoride ions from plant zinc sulfate electrolytes by aluminum sulfate.

Author

Hodjaoglu, Gyunver, Hodzhaoglu, Feyzim, Dobrev, Tsvetan, Mincheva, Irina, Kyurkchiev, Alexander, and Krastev, Ivan

Subjects

ALUMINUM sulfate, ZINC sulfate, SODIUM fluoride, CHEMICAL elements, IONS, FLUORIDES, BARIUM fluoride

Abstract

Based on the literature data, the most used chemical element for the removal of the contaminant fluoride ions from different water systems was the Al followed by the Zr, Mg, Fe, C, and several others elements that form stable Me–F complexes. The application of mixed composite adsorbents is a modern tendency, but in this study, the dry aluminum sulfate was tested for direct chemical elimination of the fluoride ions from real industrial zinc sulfate electrolytes. The behavior of the used fluorine ion-selective electrode (FISE) was tested in the presence of sodium fluoride and aluminum sulfate. For suppression of the negative role of the aluminum ions on the FISE potential citrate total ionic strength adjustment buffer (TISAB) was used for appropriate ex situ analytical measurements of the fluoride ions in the real zinc electrolytes from the different hydrometallurgical purification stages. The elimination of the free fluorine ions was tested at room temperature (18–27 °C) and by heating up to 40 °C. The obtained results show that at room temperature, the efficiency of the reaction between F− and Al3+ ions was not very satisfied. Maximum 13% from the initial fluoride concentration was reduced at real conditions. By heating the process was intensified up to 75–95%, but in excess of non-reacted aluminum ions that additionally contaminated the electrolyte for zinc electrowining. The experimentally proven advantages and disadvantages revealed that the elimination reaction needs further optimizations before any applications at plant conditions. Factors as temperature was beneficial, whereas pH was hard for operation since the dry aluminum sulfate acidified the plant electrolytes and the zinc sulfate matrix precipitated easy by titration from acid to neutral conditions. [ABSTRACT FROM AUTHOR]

Published

2023

11. Low-Temperature Phase Formation in the BaF2–LaF3 System.

Author

Alexandrov, A. A., Bragina, A. G., Sorokin, N. I., Voronov, V. V., Luginina, A. A., Kuznetsov, S. V., Ivanov, V. K., and Fedorov, P. P.

Subjects

SODIUM nitrate, IONIC conductivity, BARIUM fluoride, FLUORITE, LANTHANUM, ENTHALPY, POLYELECTROLYTES, SODIUM fluoride

Abstract

Barium lanthanum fluoride powders have been prepared by reacting barium nitrate and lanthanum nitrate in molten sodium nitrate at 350 and 450°C, using a sodium fluoride as a fluorinating agent. A fivefold excess of sodium fluoride has been shown to prevent pyrohydrolysis. We have identified a phase of variable composition with the fluorite structure, Ba1–xLaxF2+x (0.3 < x < 0.5), which has high ionic conductivity (2.3 × 10–4 S/cm at 500 K) and an activation enthalpy for ionic transport of 0.50 ± 0.01 eV. [ABSTRACT FROM AUTHOR]

Published

2023

12. Thermal Conductivity of Single Crystals of CaF2–SrF2–BaF2–YbF3 Solid Solutions

Author

Popov, P. A., Krugovykh, A. A., Konyushkin, V. A., Nakladov, A. N., Ushakov, S. N., Uslamina, M. A., Nishchev, K. N., Kuznetsov, S. V., and Fedorov, P. P.

Published

2023

13. Low-Temperature Phase Formation in the BaF2–LaF3 System

Author

Alexandrov, A. A., Bragina, A. G., Sorokin, N. I., Voronov, V. V., Luginina, A. A., Kuznetsov, S. V., Ivanov, V. K., and Fedorov, P. P.

Published

2023

14. Nonlinear chirped interferometry for frequency-shift measurement and χ(3) spectroscopy.

Author

Neradovskaia, E., Maingot, B., Chériaux, G., Claudet, C., Forget, N., and Jullien, A.

Subjects

INTERFEROMETRY, HETERODYNE detection, FOUR-wave mixing, SPECTROMETRY, NONLINEAR optical spectroscopy, OPTICS, BARIUM fluoride

Abstract

Four-wave mixing processes are ubiquitous in ultrafast optics and the determination of the coefficients of the χ(3) tensor is thus essential. We introduce a novel time-resolved ultrafast spectroscopic method to characterize the third-order nonlinearity on the femtosecond time-scale. This approach, coined as "nonlinear chirped interferometry," makes use of the variation of the optical group delay of a transmitted probe under the effect of an intense pump pulse in the nonlinear medium of interest. The observable is the spectral interference between the probe and a reference pulse sampled upstream and the metric is the transient swing of the probe group delay. We show that the detected signal is enhanced when the pulses are weakly chirped, and that, although interferometric, the method is intrinsically less sensitive to environmental phase fluctuations and drifts. By chirping adequately the reference pulse, the transient frequency shift of the probe pulses is also detected in the time domain and the detected nonlinear signal is enhanced. Nonlinear phase shifts as low as 10 mrad, corresponding to a frequency shift of 30 GHz, i.e., 0.01% of the carrier frequency, are detected without heterodyne detection or active phase-stabilization. The diagonal and/or non-diagonal terms of reference glasses (SiO2) and crystals (Al2O3, BaF2, CaF2) are characterized. The method is finally applied to measure the soft vibration mode of KTiOAsO4 (KTA). [ABSTRACT FROM AUTHOR]

Published

2022

15. The Effect of Fluorides (BaF 2 , MgF 2 , AlF 3) on Structural and Luminescent Properties of Er 3+ -Doped Gallo-Germanate Glass.

Author

Leśniak, Magdalena, Mach, Gabriela, Starzyk, Bartłomiej, Sadowska, Karolina, Ragiń, Tomasz, Żmojda, Jacek, Kochanowicz, Marcin, Kuwik, Marta, Miluski, Piotr, Jimenez, Gloria Lesly, Baranowska, Agata, Dorosz, Jan, Pisarski, Wojciech, Pisarska, Joanna, Olejniczak, Zbigniew, and Dorosz, Dominik

Subjects

BARIUM fluoride, ERBIUM, GLASS, RAMAN spectroscopy, FLUORIDES, INFRARED spectra, GLASS construction

Abstract

The effect of BaF2, MgF2, and AlF3 on the structural and luminescent properties of gallo-germanate glass (BGG) doped with erbium ions was investigated. A detailed analysis of infrared and Raman spectra shows that the local environment of erbium ions in the glass was influenced mainly by [GeO]4 and [GeO]6 units. Moreover, the highest number of non-bridging oxygens was found in the network of the BGG glass modified by MgF2. The 27Al MAS NMR spectrum of BGG glass with AlF3 suggests the presence of aluminum in tetra-, penta-, and octahedral coordination geometry. Therefore, the probability of the 4I13/2→4I15/2 transition of Er3+ ions increases in the BGG + MgF2 glass system. On the other hand, the luminescence spectra showed that the fluoride modifiers lead to an enhancement in the emission of each analyzed transition when different excitation sources are employed (808 nm and 980 nm). The analysis of energy transfer mechanisms shows that the fluoride compounds promote the emission intensity in different channels. These results represent a strong base for designing glasses with unique luminescent properties. [ABSTRACT FROM AUTHOR]

Published

2022

16. Improved cross polarized wave generation with an aperture.

Author

Zhao, Baozhen, Zhang, Xiaohua, Lv, Chong, Liu, Qiushi, Zhang, Ji, Ma, Mingjiang, and Yang, Guoqing

Subjects

CRYSTALS, BARIUM fluoride

Abstract

A cross polarized wave (XPW) generation experiment with double BaF2 crystals in air was demonstrated with 120 µJ input pulse. A circular aperture was used to truncate the near field profile of the input beam and remove the outer part of the beam, and circularly symmetric beam profiles were generated at the BaF2 crystal positions. The measured focal spot size was close to the diffraction limit, and the energy stability of XPW was improved from ∼1.89% (without the aperture) to ∼0.67% (with the aperture). [ABSTRACT FROM AUTHOR]

Published

2022

17. Thermal Conductivity of Single Crystals of CaF2–BaF2 Solid Solutions.

Author

Popov, P. A., Krugovykh, A. A., Zentsova, A. A., Konyushkin, V. A., Nakladov, A. N., Kuznetsov, S. V., and Fedorov, P. P.

Subjects

SOLID solutions, SINGLE crystals, AXIAL flow, CALCIUM fluoride, BARIUM fluoride

Abstract

Single crystals of Ca1– хBaхF2 (x = 0.001–0.05 and 0.85–0.99) solid solutions have been grown by the Bridgman method, and their thermal conductivity has been measured in the range 50–300 K by an absolute steady-state axial heat flow technique. The thermal conductivity of all samples has been shown to decrease with increasing temperature. At 300 K, the lowest thermal conductivity of the samples with x ≤ 0.05 exceeds 6 W/(m K), and that of the samples with x ≥ 0.85 is a factor of 2 lower. [ABSTRACT FROM AUTHOR]

Published

2022

18. Thermal Conductivity of Single Crystals of CaF2–BaF2 Solid Solutions

Author

Popov, P. A., Krugovykh, A. A., Zentsova, A. A., Konyushkin, V. A., Nakladov, A. N., Kuznetsov, S. V., and Fedorov, P. P.

Published

2022

19. Characterizing the Grating-like Nanostructures Formed on BaF 2 Surfaces Exposed to Extreme Ultraviolet Laser Radiation.

Author

Cui, Huaiyu, Frolov, Alexandr, Schmidt, Jiri, Straus, Jaroslav, Burian, Tomas, Hajkova, Vera, Chalupsky, Jaromir, Zhao, Yongpeng, Kolacek, Karel, and Juha, Libor

Subjects

ULTRAVIOLET lasers, LASER beams, NANOSTRUCTURES, BARIUM fluoride, SINGLE crystals

Abstract

Featured Application: laser surface-processing. Monocrystalline barium fluoride (BaF2) slab targets were irradiated by focused 46.9-nm laser radiation at various fluence levels above the ablation threshold. Well-developed ablation patterns with sharp edges were studied by AFM (atomic force microscopy). Their inner surfaces were uniformly covered by periodic structures. The spatial period of the ripples depends on the laser fluence. When the sample is rotated by 45°, the orientation of the grating-like structure changes accordingly. Thus, the grating vector of the periodic structure seems to be coupled to the crystallographic planes of the single crystal. This means that the XUV-laser induced ripples reported here differ from LIPSS (laser-induced periodic surface structures) associated with interference phenomena occurring on illuminated surfaces. Therefore, other mechanisms are discussed to explain the formation of the periodic nanostructures reported in this article. [ABSTRACT FROM AUTHOR]

Published

2022

20. Luminescence of SiO 2 -BaF 2 :Tb 3+ , Eu 3+ Nano-Glass-Ceramics Made from Sol–Gel Method at Low Temperature.

Author

Pawlik, Natalia, Szpikowska-Sroka, Barbara, Goryczka, Tomasz, Pietrasik, Ewa, and Pisarski, Wojciech A.

Subjects

BARIUM fluoride, GLASS-ceramics, ATTENUATED total reflectance, SOL-gel processes, LOW temperatures, SOL-gel materials, DIFFERENTIAL scanning calorimetry, LUMINESCENCE

Abstract

The synthesis and characterization of multicolor light-emitting nanomaterials based on rare earths (RE3+) are of great importance due to their possible use in optoelectronic devices, such as LEDs or displays. In the present work, oxyfluoride glass-ceramics containing BaF2 nanocrystals co-doped with Tb3+, Eu3+ ions were fabricated from amorphous xerogels at 350 °C. The analysis of the thermal behavior of fabricated xerogels was performed using TG/DSC measurements (thermogravimetry (TG), differential scanning calorimetry (DSC)). The crystallization of BaF2 phase at the nanoscale was confirmed by X-ray diffraction (XRD) measurements and transmission electron microscopy (TEM), and the changes in silicate sol–gel host were determined by attenuated total reflectance infrared (ATR-IR) spectroscopy. The luminescent characterization of prepared sol–gel materials was carried out by excitation and emission spectra along with decay analysis from the 5D4 level of Tb3+. As a result, the visible light according to the electronic transitions of Tb3+ (5D4 → 7FJ (J = 6–3)) and Eu3+ (5D0 → 7FJ (J = 0–4)) was recorded. It was also observed that co-doping with Eu3+ caused the shortening in decay times of the 5D4 state from 1.11 ms to 0.88 ms (for xerogels) and from 6.56 ms to 4.06 ms (for glass-ceramics). Thus, based on lifetime values, the Tb3+/Eu3+ energy transfer (ET) efficiencies were estimated to be almost 21% for xerogels and 38% for nano-glass-ceramics. Therefore, such materials could be successfully predisposed for laser technologies, spectral converters, and three-dimensional displays. [ABSTRACT FROM AUTHOR]

Published

2022

21. BaF(p -BDC) 0.5 as the Catalyst Precursor for the Catalytic Dehydrochlorination of 1-Chloro-1,1-Difluoroethane to Vinylidene Fluoride.

Author

Wang, Shucheng, Wang, Chuanzhao, Yu, Houlin, Yu, Wei, Liu, Yongnan, Liu, Wucan, Zhou, Feixiang, Yu, Wanjin, Wang, Jiuju, Zhang, Jianjun, and Han, Wenfeng

Subjects

DIFLUOROETHYLENE, CATALYSTS, LOW temperatures, HIGH temperatures, BARIUM fluoride, PYROLYSIS

Abstract

A BaF(p-BDC)0.5 catalyst was prepared by solid state reaction at room temperature with Ba(OH)2 as precursor, NH4F as F source, and H2(p-BDC) as organic ligand. The calcined samples were used as catalysts for dehydrochlorination of 1-chloro-1,1-difluoroethane to generate vinylidene fluoride (VDF) at 350 °C. Commercial production of VDF is carried out at 600–700 °C. Clearly, pyrolysis of the BaF(p-BDC)0.5 catalyst provided a promising way to prepare VDF at low temperatures. Prior to calcination, the activity of the BaF(p-BDC)0.5 catalyst was low. Following calcination at high temperatures, BaF(p-BDC)0.5 decomposed to BaF2 and BaCO3, and then the catalyst was chlorinated and fluorinated to BaClF, which showed high activity and stable VDF selectivity for dehydrochlorination of 1-Chloro-1,1-Difluoroethane to VDF. [ABSTRACT FROM AUTHOR]

Published

2021