Academic literature on the topic 'Ba2CaWO6'

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Journal articles on the topic "Ba2CaWO6"

1

Ishfaq, M., A. Aziz, S. A. Aldaghfag, S. Noreen, M. Zahid, and M. Yaseen. "A first-principles investigation of Ba2CaTeO6 and Ba2CaWO6 compounds for thermoelectric and optoelectronic applications." Chalcogenide Letters 21, no. 8 (2024): 615–29. http://dx.doi.org/10.15251/cl.2024.218.615.

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Herein, structural, optoelectronic, and thermoelectric characteristics of Ba2CaTeO6 and Ba2CaWO6 oxides double perovskite have been evaluated by first-principles calculations. Enthalpy of formation and tolerance factor are computed to ensure the respective structural and thermodynamical stability. Ba2CaTeO6 and Ba2CaWO6 have mBJ computed bandgaps of 5.87 eV and 4.20 eV, respectively. Furthermore, the optical parameters like dielectric constants (ԑ1(ω) & ԑ2(ω)) and other related parameters are computed. The thermoelectric (TE) parameters were examined using the BoltzTraP package. The ZT val
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2

Trivedi, Mahendra Kumar, Rama Mohan Tallapragada, Alice Branton, et al. "Evaluation of Physical and Structural Properties of Biofield Energy Treated Barium Calcium Tungsten Oxide." Advances in Materials 4, no. 6 (2015): 95–100. https://doi.org/10.11648/j.am.20150406.11.

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Barium calcium tungsten oxide (Ba2CaWO6) is known for its double perovskite-type crystal structure. The present study was designed to see the effect of biofield energy treatment on physical, atomic, and structural properties of Ba2CaWO6. In this study, Ba2CaWO6 powder sample was divided into two parts, one part was remained as untreated, denoted as control, while the other part was subjected to Mr. Trivedi’s biofield energy treatment and coded as treated. After that, the control and treated samples were analyzed using X-ray diffraction (XRD), surface area analyzer, Fourier transform infr
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3

Trivedi, Mahendra Kumar, Rama Mohan Tallapragada, Alice Branton, et al. "Evaluation of Physical and Structural Properties of Biofield Energy Treated Barium Calcium Tungsten Oxide." Advances in Materials 4, no. 6 (2015): 95–100. https://doi.org/10.5281/zenodo.192202.

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Barium calcium tungsten oxide (Ba2CaWO6) is known for its double perovskite-type crystal structure. The present study was designed to see the effect of biofield energy treatment on physical, atomic, and structural properties of Ba2CaWO6. In this study, Ba2CaWO6 powder sample was divided into two parts, one part was remained as untreated, denoted as control, while the other part was subjected to Mr. Trivedi’s biofield energy treatment and coded as treated. After that, the control and treated samples were analyzed using X-ray diffraction (XRD), surface area analyzer, Fourier transform
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4

Riedel, M., H. Düsterhöft, and F. Nagel. "Investigation of tungsten cathodes activated with Ba2CaWO6." Vacuum 61, no. 2-4 (2001): 169–73. http://dx.doi.org/10.1016/s0042-207x(01)00112-9.

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5

Yin, Xueai, Weiwei Feng, and Xin Zhang. "Synthesis of Rare Earth Doped with Tungstate and Phosphate Luminescent Materials and Its Adoption in Light-Emitting Diode." Journal of Nanoelectronics and Optoelectronics 15, no. 5 (2020): 654–62. http://dx.doi.org/10.1166/jno.2020.2784.

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This research focuses on the fluorescent powder materials based on a single matrix of this type of LED. Taking Ba2CaWO6 as an example, mixing Dy3+ alone can produce blue and white light at 318nm UV excitation. At the same time, mixing Dy3+ with Eu3+ can make the fluorescent powders realize the emission of 491 nm/577 nm of Dy3+ and 588 nm of Eu3+. Dy3+ is set to 0.06 and the ratio of Eu3+ is adjusted to make the luminous color gradually close to white. In the study of Ba3Y(PO4)3 · xDy3+ · yEu3+, x is set as 0.07, and the content of y is set as 0.01∼0.08. Dy3+ alone will emit blue and white ligh
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6

Yu, Ruijin, Dong Soo Shin, Kiwan Jang, et al. "Luminescence and thermal-quenching properties of Dy3+-doped Ba2CaWO6 phosphors." Spectrochimica Acta Part A: Molecular and Biomolecular Spectroscopy 125 (May 2014): 458–62. http://dx.doi.org/10.1016/j.saa.2014.01.131.

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7

Animitsa, I. E., N. A. Kochetova, T. A. Denisova, N. A. Zhuravlev, and I. V. Baklanova. "Hydration and proton transport in solid solutions based on Ba2CaWO6." Russian Journal of Physical Chemistry A 83, no. 2 (2009): 197–202. http://dx.doi.org/10.1134/s0036024409020095.

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8

Sreeja, E., Subash Gopi, T. Krishnapriya, N. V. Unnikrishnan, Cyriac Joseph, and P. R. Biju. "Photoluminescent enhancement by the incorporation of Bi3+ in Ba2CaWO6: Eu3+ phosphors." Journal of Materials Science: Materials in Electronics 33, no. 4 (2021): 1851–63. http://dx.doi.org/10.1007/s10854-021-07384-2.

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9

Popovič, Arkadij, Laszlo Bencze, Jože Marsel, Antonija Lesar, K. Vass-Balthazar, and O. Kaposi. "Mass spectrometric investigation of the evaporation properties of Ba2CaWO6 and Ba2SrWO6." Rapid Communications in Mass Spectrometry 7, no. 6 (1993): 416–20. http://dx.doi.org/10.1002/rcm.1290070603.

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10

Sreeja, E., Adon Jose, Anns George, N. V. Unnikrishnan, Cyriac Joseph, and P. R. Biju. "Upconversion photoluminescence and radiative properties of Ba2CaWO6: Er3+ phosphors for photonic applications." Infrared Physics & Technology 123 (June 2022): 104184. http://dx.doi.org/10.1016/j.infrared.2022.104184.

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