Synthesis of novel Fe3O4 nanostructures surrounded by Ti-MOF nanostructures as bioactive and efficient catalysts in three-component synthesis of new pyrazole derivatives

Synthesis of novel Fe3O4 nanostructures surrounded by Ti-MOF nanostructures as bioactive and efficient catalysts in three-component synthesis of new pyrazole derivatives

Synthesis and reporting of new nanoparticles with diverse properties is important in chemistry. A one-step, rapid and controllable synthesis of the new Fe3O4 surrounded in Ti-MOF nanostructures was carried out with microwave technology. After identifying and confirming the structure, Fe3O4 surrounde...

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Main Authors: Balsam Qubais Saeed, Ibrahem Waleed, Hussein Humedy Chlib Alkaaby, Sabrean Farhan Jawad, Usama S. Altimari, Ziyad Shihab Ahmed AL-Sarraj, Ruwaida T. Shbeeb, Salema K. Hadrawi, Muath Suliman, Mohammad Y. Alshahrani
Format: Article
Language:English
Published: Frontiers Media S.A. 2023-06-01
Series:Frontiers in Materials
Subjects:
Fe3O4/Ti-MOF nanostructure
magnetic nanocatalyst
pyrazole
Gram-positive bacterial species
Gram-negative bacterial species
Online Access:https://www.frontiersin.org/articles/10.3389/fmats.2023.1156702/full
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author Balsam Qubais Saeed
Ibrahem Waleed
Hussein Humedy Chlib Alkaaby
Sabrean Farhan Jawad
Usama S. Altimari
Ziyad Shihab Ahmed AL-Sarraj
Ruwaida T. Shbeeb
Salema K. Hadrawi
Muath Suliman
Mohammad Y. Alshahrani
author_facet Balsam Qubais Saeed
Ibrahem Waleed
Hussein Humedy Chlib Alkaaby
Sabrean Farhan Jawad
Usama S. Altimari
Ziyad Shihab Ahmed AL-Sarraj
Ruwaida T. Shbeeb
Salema K. Hadrawi
Muath Suliman
Mohammad Y. Alshahrani
author_sort Balsam Qubais Saeed
collection DOAJ
description Synthesis and reporting of new nanoparticles with diverse properties is important in chemistry. A one-step, rapid and controllable synthesis of the new Fe3O4 surrounded in Ti-MOF nanostructures was carried out with microwave technology. After identifying and confirming the structure, Fe3O4 surrounded in Ti-MOF nanostructures was used as a suitable catalyst with high thermal resistance and recyclable in a three-component reaction of phenylhydrazine, malononitrile and aldehyde to synthesis novel pyrazole derivatives. Continuing investigations on Fe3O4 surrounded in Ti-MOF nanostructures, its antimicrobial properties were tested on Gram-positive bacterial species, Gram-negative bacterial species and fungi bacterial. Identification of Fe3O4 surrounded in Ti-MOF nanostructures with morphology and size distribution technique (SEM), surface area technique (BET), Infrared spectroscopy (FT-IR), Energy-Dispersive X-ray spectroscopy (EDX/EDX mapping), and Vibrating Sample Magnetometer (VSM) were performed. Synthesized pyrazole derivatives with Fe3O4 surrounded in Ti-MOF nanostructures than previously reported methods have less synthesis time and high efficiency. In antimicrobial properties high effects were observed based on MIC, MBC, and MFC values.
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spelling doaj.art-122f9bc3b47f47b2891e51c0599a1b6b2023-06-13T04:29:59ZengFrontiers Media S.A.Frontiers in Materials2296-80162023-06-011010.3389/fmats.2023.11567021156702Synthesis of novel Fe3O4 nanostructures surrounded by Ti-MOF nanostructures as bioactive and efficient catalysts in three-component synthesis of new pyrazole derivativesBalsam Qubais Saeed0Ibrahem Waleed1Hussein Humedy Chlib Alkaaby2Sabrean Farhan Jawad3Usama S. Altimari4Ziyad Shihab Ahmed AL-Sarraj5Ruwaida T. Shbeeb6Salema K. Hadrawi7Muath Suliman8Mohammad Y. Alshahrani9Department of Clinical Sciences, College of Medicine, University of Sharjah, Sharjah, United Arab EmiratesMedical Technical College, Al-Farahidi University, Baghdad, IraqAl-Manara College for Medical Sciences, Maysan, IraqPharmacy Department, Al-Mustaqbal University College, Babylon, IraqDepartment of Medical Engineering, Al-Nisour University College, Baghdad, IraqDepartment of Biomedialc Engineering, Ashur University College, Baghdad, IraqDepartment of Medical Engineering, Al-Hadi University College, Baghdad, IraqRefrigeration and Air-Conditioning Technical Engineering Department, College of Technical Engineering, The Islamic University, Najaf, IraqDepartment of Clinical Laboratory Sciences, College of Applied Medical Sciences, King Khalid University, Abha, Saudi ArabiaDepartment of Clinical Laboratory Sciences, College of Applied Medical Sciences, King Khalid University, Abha, Saudi ArabiaSynthesis and reporting of new nanoparticles with diverse properties is important in chemistry. A one-step, rapid and controllable synthesis of the new Fe3O4 surrounded in Ti-MOF nanostructures was carried out with microwave technology. After identifying and confirming the structure, Fe3O4 surrounded in Ti-MOF nanostructures was used as a suitable catalyst with high thermal resistance and recyclable in a three-component reaction of phenylhydrazine, malononitrile and aldehyde to synthesis novel pyrazole derivatives. Continuing investigations on Fe3O4 surrounded in Ti-MOF nanostructures, its antimicrobial properties were tested on Gram-positive bacterial species, Gram-negative bacterial species and fungi bacterial. Identification of Fe3O4 surrounded in Ti-MOF nanostructures with morphology and size distribution technique (SEM), surface area technique (BET), Infrared spectroscopy (FT-IR), Energy-Dispersive X-ray spectroscopy (EDX/EDX mapping), and Vibrating Sample Magnetometer (VSM) were performed. Synthesized pyrazole derivatives with Fe3O4 surrounded in Ti-MOF nanostructures than previously reported methods have less synthesis time and high efficiency. In antimicrobial properties high effects were observed based on MIC, MBC, and MFC values.https://www.frontiersin.org/articles/10.3389/fmats.2023.1156702/fullFe3O4/Ti-MOF nanostructuremagnetic nanocatalystpyrazoleGram-positive bacterial speciesGram-negative bacterial species
spellingShingle Balsam Qubais Saeed
Ibrahem Waleed
Hussein Humedy Chlib Alkaaby
Sabrean Farhan Jawad
Usama S. Altimari
Ziyad Shihab Ahmed AL-Sarraj
Ruwaida T. Shbeeb
Salema K. Hadrawi
Muath Suliman
Mohammad Y. Alshahrani
Synthesis of novel Fe3O4 nanostructures surrounded by Ti-MOF nanostructures as bioactive and efficient catalysts in three-component synthesis of new pyrazole derivatives
Frontiers in Materials
Fe3O4/Ti-MOF nanostructure
magnetic nanocatalyst
pyrazole
Gram-positive bacterial species
Gram-negative bacterial species
title Synthesis of novel Fe3O4 nanostructures surrounded by Ti-MOF nanostructures as bioactive and efficient catalysts in three-component synthesis of new pyrazole derivatives
title_full Synthesis of novel Fe3O4 nanostructures surrounded by Ti-MOF nanostructures as bioactive and efficient catalysts in three-component synthesis of new pyrazole derivatives
title_fullStr Synthesis of novel Fe3O4 nanostructures surrounded by Ti-MOF nanostructures as bioactive and efficient catalysts in three-component synthesis of new pyrazole derivatives
title_full_unstemmed Synthesis of novel Fe3O4 nanostructures surrounded by Ti-MOF nanostructures as bioactive and efficient catalysts in three-component synthesis of new pyrazole derivatives
title_short Synthesis of novel Fe3O4 nanostructures surrounded by Ti-MOF nanostructures as bioactive and efficient catalysts in three-component synthesis of new pyrazole derivatives
title_sort synthesis of novel fe3o4 nanostructures surrounded by ti mof nanostructures as bioactive and efficient catalysts in three component synthesis of new pyrazole derivatives
topic Fe3O4/Ti-MOF nanostructure
magnetic nanocatalyst
pyrazole
Gram-positive bacterial species
Gram-negative bacterial species
url https://www.frontiersin.org/articles/10.3389/fmats.2023.1156702/full
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