Catechin adsorption on magnetic hydroxyapatite nanoparticles: A synergistic interaction with calcium ions

Catechin adsorption on magnetic hydroxyapatite nanoparticles: A synergistic interaction with calcium ions

Chemotherapeutic drug in the treatment of cancer is the developing strategy that includes the usage of herbal catechin, is being explored to get more insights. On the other hand, the broad dispersal of flavonoid compounds invariably restricts the therapeutic dosage of the drug at the point of delive...

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Veröffentlicht in:Materials chemistry and physics 2020-02, Vol.241, p.122337, Article 122337
Hauptverfasser: Yusoff, A.H.M., Salimi, M.N., Gopinath, S.C.B., Abdullah, M.M.A., Samsudin, E.M.
Format: Artikel
Sprache:eng
Schlagworte:
Adsorption
Adsorption isotherm
Bioactive antioxidant
Calcium ions
Catechin
Catechol
Chemical compounds
Drug delivery systems
Electron microscopy
Fourier transforms
Hydroxyapatite
Iron oxides
Magnetic cores
Magnetic hydroxyapatite nanoparticle
Magnetic properties
Magnetometers
Microscopy
Nanoparticles
Room temperature
Spectrum analysis
Transport
X ray powder diffraction
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container_end_page
container_issue
container_start_page 122337
container_title Materials chemistry and physics
container_volume 241
creator Yusoff, A.H.M.
Salimi, M.N.
Gopinath, S.C.B.
Abdullah, M.M.A.
Samsudin, E.M.
description Chemotherapeutic drug in the treatment of cancer is the developing strategy that includes the usage of herbal catechin, is being explored to get more insights. On the other hand, the broad dispersal of flavonoid compounds invariably restricts the therapeutic dosage of the drug at the point of delivery. This study is creating an effective transport mechanism for the delivery of catechin, a core-shell magnetite-hydroxyapatite nano agent (Fe3O4/HA) was used. A batch adsorption portrayed by Vibrating Sample Magnetometer, UV–Vis Spectroscopy, Transmission Electron Microscopy, Field-emission Scanning Electron Microscopy, X-ray powder Diffraction and Fourier-transform Infrared Spectroscopy was employed to investigate Fe3O4/HA on catechin adsorption. Accordingly, it was discovered that the herbal catechin functionalised on the Fe3O4/HA (Fe3O4/HA/Cat) exhibited a dimension of 93 nm and 8.81 nm for the magnetic core. In addition, the Fe3O4/HA/Cat at ambient room temperature was found to consist with properties that were superparamagnetic including acquiring a saturation magnetisation of 9.127 emu/g. Employing the Langmuir model, the data pertaining to catechin adsorption showed that the process was positive in acquiring the capacity and mechanism for higher adsorption (110.97 mg/g). Furthermore, the ability of the catechin to kinetically adsorb on the Fe3O4/HA was well evidenced as observed by applying the pseudo-second-order equation. Accordingly, the findings of this research help to show the chemical compounds and their associated interactions. Also, based on the findings of this study, the ability of Fe3O4/HA to transport catechin electrostatically was possibly attributed to the –OH component of the catechol moiety of catechin and Ca2+ on the HA shell. [Display omitted] •Catechin for treating cancer, we established Fe3O4/HAp, a delivery system.•Catechin adsorption on Fe3O4/HAp studied by FTIR, XRD, FESEM, TEM, UV–Vis, VSM.•Functionalised Fe3O4/HAp showed a size of 93 nm and magnetic core size 8.81 nm.•Saturation magnetisation (9.13emu/g) & Langmuir model adsorption (110.97 mg/g) shown.•Kinetic by pseudo-second-order, electrostatic between –OH of catechin and metal Ca2+.
doi_str_mv 10.1016/j.matchemphys.2019.122337
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On the other hand, the broad dispersal of flavonoid compounds invariably restricts the therapeutic dosage of the drug at the point of delivery. This study is creating an effective transport mechanism for the delivery of catechin, a core-shell magnetite-hydroxyapatite nano agent (Fe3O4/HA) was used. A batch adsorption portrayed by Vibrating Sample Magnetometer, UV–Vis Spectroscopy, Transmission Electron Microscopy, Field-emission Scanning Electron Microscopy, X-ray powder Diffraction and Fourier-transform Infrared Spectroscopy was employed to investigate Fe3O4/HA on catechin adsorption. Accordingly, it was discovered that the herbal catechin functionalised on the Fe3O4/HA (Fe3O4/HA/Cat) exhibited a dimension of 93 nm and 8.81 nm for the magnetic core. In addition, the Fe3O4/HA/Cat at ambient room temperature was found to consist with properties that were superparamagnetic including acquiring a saturation magnetisation of 9.127 emu/g. Employing the Langmuir model, the data pertaining to catechin adsorption showed that the process was positive in acquiring the capacity and mechanism for higher adsorption (110.97 mg/g). Furthermore, the ability of the catechin to kinetically adsorb on the Fe3O4/HA was well evidenced as observed by applying the pseudo-second-order equation. Accordingly, the findings of this research help to show the chemical compounds and their associated interactions. Also, based on the findings of this study, the ability of Fe3O4/HA to transport catechin electrostatically was possibly attributed to the –OH component of the catechol moiety of catechin and Ca2+ on the HA shell. 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Employing the Langmuir model, the data pertaining to catechin adsorption showed that the process was positive in acquiring the capacity and mechanism for higher adsorption (110.97 mg/g). Furthermore, the ability of the catechin to kinetically adsorb on the Fe3O4/HA was well evidenced as observed by applying the pseudo-second-order equation. Accordingly, the findings of this research help to show the chemical compounds and their associated interactions. Also, based on the findings of this study, the ability of Fe3O4/HA to transport catechin electrostatically was possibly attributed to the –OH component of the catechol moiety of catechin and Ca2+ on the HA shell. 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On the other hand, the broad dispersal of flavonoid compounds invariably restricts the therapeutic dosage of the drug at the point of delivery. This study is creating an effective transport mechanism for the delivery of catechin, a core-shell magnetite-hydroxyapatite nano agent (Fe3O4/HA) was used. A batch adsorption portrayed by Vibrating Sample Magnetometer, UV–Vis Spectroscopy, Transmission Electron Microscopy, Field-emission Scanning Electron Microscopy, X-ray powder Diffraction and Fourier-transform Infrared Spectroscopy was employed to investigate Fe3O4/HA on catechin adsorption. Accordingly, it was discovered that the herbal catechin functionalised on the Fe3O4/HA (Fe3O4/HA/Cat) exhibited a dimension of 93 nm and 8.81 nm for the magnetic core. In addition, the Fe3O4/HA/Cat at ambient room temperature was found to consist with properties that were superparamagnetic including acquiring a saturation magnetisation of 9.127 emu/g. Employing the Langmuir model, the data pertaining to catechin adsorption showed that the process was positive in acquiring the capacity and mechanism for higher adsorption (110.97 mg/g). Furthermore, the ability of the catechin to kinetically adsorb on the Fe3O4/HA was well evidenced as observed by applying the pseudo-second-order equation. Accordingly, the findings of this research help to show the chemical compounds and their associated interactions. Also, based on the findings of this study, the ability of Fe3O4/HA to transport catechin electrostatically was possibly attributed to the –OH component of the catechol moiety of catechin and Ca2+ on the HA shell. [Display omitted] •Catechin for treating cancer, we established Fe3O4/HAp, a delivery system.•Catechin adsorption on Fe3O4/HAp studied by FTIR, XRD, FESEM, TEM, UV–Vis, VSM.•Functionalised Fe3O4/HAp showed a size of 93 nm and magnetic core size 8.81 nm.•Saturation magnetisation (9.13emu/g) &amp; Langmuir model adsorption (110.97 mg/g) shown.•Kinetic by pseudo-second-order, electrostatic between –OH of catechin and metal Ca2+.</abstract><cop>Lausanne</cop><pub>Elsevier B.V</pub><doi>10.1016/j.matchemphys.2019.122337</doi><orcidid>https://orcid.org/0000-0002-8347-4687</orcidid></addata></record>
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source Elsevier ScienceDirect Journals Complete
subjects Adsorption
Adsorption isotherm
Bioactive antioxidant
Calcium ions
Catechin
Catechol
Chemical compounds
Drug delivery systems
Electron microscopy
Fourier transforms
Hydroxyapatite
Iron oxides
Magnetic cores
Magnetic hydroxyapatite nanoparticle
Magnetic properties
Magnetometers
Microscopy
Nanoparticles
Room temperature
Spectrum analysis
Transport
X ray powder diffraction
title Catechin adsorption on magnetic hydroxyapatite nanoparticles: A synergistic interaction with calcium ions
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