Ion-doped mesoporous bioactive glass: preparation, characterization, and applications using the spray pyrolysis method

Biotechnology is used extensively in medical procedures, dentistry, statures, biosensors, bio electrodes, skin substitutes, and medicine delivery systems. Glass is biocompatible and can be used in permanent implantation applications without risk. The porosity of BG matrixes, combined with their huge...

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Veröffentlicht in:	RSC advances 2022-01, Vol.12 (3), p.1592-163
Hauptverfasser:	Workie, Andualem Belachew, Sefene, Eyob Messele
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Sprache:	eng
Schlagworte:	Apatite Biocompatibility Bioglass Biosensors Chemistry Dentistry Health services Production methods Sol-gel processes Spray drying Spray pyrolysis Substrates
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description	Biotechnology is used extensively in medical procedures, dentistry, statures, biosensors, bio electrodes, skin substitutes, and medicine delivery systems. Glass is biocompatible and can be used in permanent implantation applications without risk. The porosity of BG matrixes, combined with their huge specific surface area, greatly aids the formation of hydroxyl carbonate apatite. Zn-Doped bioglass can be made in the lab in a variety of ways, depending on how it will be used in medical treatment. The melt-quenching technique, spray pyrolysis method, sol-gel process for BG fabrication, spray drying method, and modified Stöber method are examples of such strategies. Spray pyrolysis is a comprehensive approach that is an undeniably versatile and effective material synthesis technology. It is a low-cost, non-vacuum method for producing materials in the form of powders and films that may be deposited on a variety of substrates, and is a straightforward method to adapt for large-area deposition and industrial production processes. For better utility in medical care, MBG fabricated in the laboratory should be characterized using various characterization methods such as SEM, TEM, BET, and XRD. Bioactive glasses (BAG) are one type of biomaterial that is used in dentistry and orthopedics to repair or replace damaged bone. The spray pyrolysis process is low-cost and one of the most common ways for producing porous films and films with high-density packing and particle homogeneity.
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subjects	Apatite Biocompatibility Bioglass Biosensors Chemistry Dentistry Health services Production methods Sol-gel processes Spray drying Spray pyrolysis Substrates
title	Ion-doped mesoporous bioactive glass: preparation, characterization, and applications using the spray pyrolysis method
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