The Impact of Fe-doped Nano Zirconia for the Reformation of the Photoreaction Rate and Materializing Microorganism Resistance

سال انتشار: 1404
محل انتشار: مجله بین المللی فناوری نانو در آب و محیط زیست، دوره: 10، شماره: 1
کد COI اختصاصی: JR_JWENT-10-1_005
زبان مقاله: انگلیسی
تعداد مشاهده: 55

نویسندگان

Manonmaniam Sundaranar University, Abishekapatti, Tirunelveli ۶۲۷ ۰۱۲, Tamil Nadu, India

Department of Physics, Pioneer Kumaraswamy College, Tamilnadu – ۶۲۹۰۰۳, India.

Department of Electronics and Communication Engineering, R.V.R. & J.C. College of Engineering, Andhra Pradesh - ۵۲۲۰۱۹, India

Christhdhas Sundareshwari Juliet Brintha

Department of Physics, Arunachala College of Engineering for Women, Tamilnadu-۶۲۹۲۰۳, India.

چکیده

Doping transition metals have great potential to enhance the optical and magnetic properties. This work described the synthesis of pure and FexZr ۱-x O۲ (x = ۰.۰۴, ۰.۰۸, and ۰.۱۲ mol %) nanoparticles, structural, magnetic, photocatalytic, and anti-microbial properties. According to the results, Fe doping reduced the crystallite size from ۲۹.۷۴ to ۷.۸۸ nm. Smaller particles have a higher surface area-to-volume ratio, which can enhance their reactivity. UV-visible spectra, the produced un-doped, and Fe-doped zirconia nanoparticles have a comprehensive band-gap material ranging between ۴.۶ and ۱.۶ eV. A smaller band gap allows nanoparticles to absorb light more efficiently which enhances the photocatalytic activity. The diffraction pattern of pure and Iron-doped ZrO۲ nanoparticles reveals a tetragonal crystalline phase. The retention of the tetragonal crystalline structure upon doping, despite introducing Fe۳+, highlights a unique stability in the material. The SEM micrograph confirms the Pure ZrO۲ nanoparticles have a rod-shaped morphology and spherical mixture of spherical and needle-shaped morphology for iron-doped zirconia with various concentrations. The hysteresis loop for pristine zirconia exhibits perfect Ferromagnetism at Room Temperature (RTFM), whereas iron-doped zirconia exhibits superparamagnetic behavior, according to a VSM investigation which offers several advantages in fields like medicine, and environmental remediation In addition, iron doping improves zirconia’s anti-microbial properties.

کلیدواژه ها

Iron-doped zirconia, Ferromagnetism at Room Temperature (RTFM), Superparamagnetism

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