Journal of Semiconductor Devices and Circuits

With the increasing advancement in the field of Photoluminescence and its utilization in borate-based phosphors due to its wide diversity and advanced features compared to other types of luminescence. The optical range of the photoluminescence and furthermore the reliance of its force on the illumination power and gadget temperature can convey significant data for gadget portrayal. The release of light caused by another source of light shining on a substance is known as photoluminescence. Both fluorescence and brightness, which differ in the amount of time following illumination over which the iridescence occurs, are accepted under this category. The light that is released is often visible, but it can also be brilliant or infrared. Sometimes, photoluminescence is used to depict photonic devices or their components. For example, short-frequency light could be used to stimulate photoluminescence on a semiconductor wafer that has additional layers for a semiconductor laser, or a saturable shield constructed on it. Borates have phenomenal properties as host because of the innate traits of the enormous band hole and covalent security energy. To high discharge power also, a decent excitation profile, the Eu3+ doped-LiLa2BO5 phosphors can be utilized in strong state lighting applications. A review of Photoluminescence of borate-based phosphors is presented. This paper lists reviews on various aspects by which Photoluminescence can be utilized in phosphors. This report majorly displays the luminescent properties of borate-based phosphors.

Paschotta R., “Photoluminescence”, Eksma optics, https://www.rp-photonics.com/photoluminescencehtml.

Ingle J. Nagpure P. Sonekar R., “Synthesis and Photoluminescence of Inorganic Borate Host Red Emitting VUV Phosphor YCaBO4: Eu3+”, AIP Conf. Proc.1536, 895-896, (2013).

Lu C. Godbole S. Natarajan V., “Luminescence characteristics of strontium borate phosphate phosphors”, Materials Chemistry and Physics.94, 73–77, (2005).

Liu J. Wang J. Chan H., “Photoluminescence properties of red-emitting phosphors Ln3BWO9:Eu3þ (Ln=Y, La, Gd)”, Journal of Luminescence.132, 2874–2878, (2012).

Haque M. Asraf M. Kim D., “Comparative study on luminescent properties of LiLa2BO5:Eu3+ phosphors synthesized with different methods”, Journal of Alloys and Compounds.539, 195-199, (2012).

Ju G. Chen L. Kang F., “The luminescence of bismuth and europium in Ca4YO(BO3)3”, Journal of Luminescence.132, 717-721, (2012).

Liu X. Cui H. Gao C., “Combinatorial screening for new borophosphate VUV phosphors”, Applied Surface Science.223, 144-147, (2004).

U. Shukla and S. Gupta, “Mechanisms and Applications of Lyoluminescence,” J. Nucl. Eng. Technol., vol. 12, no. 1, pp. 1–6, Jun. 2022.

“Electroluminescence | Shukla | Trends in Opto-Electro and Optical Communications.” [Online]. Available: https://engineeringjournals.stmjournals.in/index.php/TOEOC/article/view/5683. [Accessed: 01-Apr-2022].

U. Shukla and G. Srivastava, “Influence of the Temperature on the Photoluminescence Intensity of the CdS:Cu Nanophosphors,” Int. J. Multidiscip. Consort., vol. 1, no. 1, pp. 1–4, 2014.

Shukla U and Priyadarshi K, “Study on the Electroluminescence of Y 2 O 3 Material Doped with Rare Earth Elements,” RRJPAP, vol. 9, 2021.

U. Shukla, “Mechanisms and Applications of Bioluminescence,” J. Pure Appl. Ind. PhysicsAn Int. Res. Journal), vol. 8(1), no. 4, pp. 1–6, 2018.

U. Shukla and A. Dhasmana, “synthesis and characterization of copper oxide doped with titanium nanoparticles,” Gurugram Int. J. Tech. Res. Sci. (Special Issue) ISSN No, pp. 2454–2024, 2021.

U. Shukla and S. Bari, “Study on the Photoluminescence,” Online) J. Pure Appl. Ind. Phys., vol. 8, no. 5, pp. 25–31, 2018.

U. Shukla, “ Effect of temperature on the thin film Electroluminescence of ZnS:Tb Phosphors, “ Proceeding of ISAFBM-2019, ISBN: 978-93-5351-824-0, page no.100-103

U. Shukla and Mohd. Taib, “Thermoluminescence, “Research direction,” ISSN No. 2321-5488, 2019.

Shukla, U. (2022). Bioluminescence: Biologically Living Organism. International Journal of Optical Sciences, 8(2), 9–19.

Shukla, U. (2023). Recent Advances in Mechaniluminescence. Mukt Shabd Journal, 12(5),5 9–71.