Study Microstructure of Fe3O4 Modification Using PEG 4000 form Iron Sand at Wari Ino Beach As A Biosensor Application

Study Microstructure of Fe3O4 Modification Using PEG 4000 form Iron Sand at Wari Ino Beach As A Biosensor Application

Fe3O4 encapsulated PEG form iron sand at wari ino beach has been successfully synthesized by co-precipitation method. The average particle size  of the nanoparticle 11,3 nm was determined by scherrer formula. Fe3O4 modification PEG 4000 was successfully encapsulated the samples  by the presence C-O...

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Bibliographic Details
Main Authors: Kurnia Kurnia, Meidy Kaseside, Steven Iwamony
Format: Article
Language:English
Published: Department of Chemistry, Pattimura University 2021-01-01
Series:Indonesian Journal of Chemical Research
Subjects:
Fe3O4 Nanoparticles; Fe3O4 / PEG 4000; Biosensor; Spinel Structure
Online Access:https://ojs3.unpatti.ac.id/index.php/ijcr/article/view/2363
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spelling doaj-0183650c11524b6d87e25340e03c729b2021-07-02T17:48:52ZengDepartment of Chemistry, Pattimura UniversityIndonesian Journal of Chemical Research2338-53592614-26272021-01-018310.30598//ijcr.2021.8-kurStudy Microstructure of Fe3O4 Modification Using PEG 4000 form Iron Sand at Wari Ino Beach As A Biosensor ApplicationKurnia Kurnia0Meidy Kaseside1Steven Iwamony2Department of Physics, Faculty of Natural Sciences and Technology, Halmahera University,Wari Ino, Halmahera UtaraDepartment of Mathematics, Faculty of Natural Sciences and Technology, Halmahera University,Wari Ino, Halmahera UtaraEnvironmental Agency of Halmahera Utara Fe3O4 encapsulated PEG form iron sand at wari ino beach has been successfully synthesized by co-precipitation method. The average particle size  of the nanoparticle 11,3 nm was determined by scherrer formula. Fe3O4 modification PEG 4000 was successfully encapsulated the samples  by the presence C-O-C and CH bonding that were characterized using Fourier Transform Infra Red (FTIR), X-Ray Diffraction (XRD) pattern  shows that all samples  are formed by single  phase cubic spinel magnetite  , and Scanning Electron Microscopy (SEM) shows the  high dispersion capability while encapsulated process using  PEG. The results of the characterization show that the Fe3O4 successfully encapsulated by PEG 4000. https://ojs3.unpatti.ac.id/index.php/ijcr/article/view/2363Fe3O4 Nanoparticles; Fe3O4 / PEG 4000; Biosensor; Spinel Structure
collection DOAJ
language English
format Article
sources DOAJ
author Kurnia Kurnia
Meidy Kaseside
Steven Iwamony
spellingShingle Kurnia Kurnia
Meidy Kaseside
Steven Iwamony
Study Microstructure of Fe3O4 Modification Using PEG 4000 form Iron Sand at Wari Ino Beach As A Biosensor Application
Indonesian Journal of Chemical Research
Fe3O4 Nanoparticles; Fe3O4 / PEG 4000; Biosensor; Spinel Structure
author_facet Kurnia Kurnia
Meidy Kaseside
Steven Iwamony
author_sort Kurnia Kurnia
title Study Microstructure of Fe3O4 Modification Using PEG 4000 form Iron Sand at Wari Ino Beach As A Biosensor Application
title_short Study Microstructure of Fe3O4 Modification Using PEG 4000 form Iron Sand at Wari Ino Beach As A Biosensor Application
title_full Study Microstructure of Fe3O4 Modification Using PEG 4000 form Iron Sand at Wari Ino Beach As A Biosensor Application
title_fullStr Study Microstructure of Fe3O4 Modification Using PEG 4000 form Iron Sand at Wari Ino Beach As A Biosensor Application
title_full_unstemmed Study Microstructure of Fe3O4 Modification Using PEG 4000 form Iron Sand at Wari Ino Beach As A Biosensor Application
title_sort study microstructure of fe3o4 modification using peg 4000 form iron sand at wari ino beach as a biosensor application
publisher Department of Chemistry, Pattimura University
series Indonesian Journal of Chemical Research
issn 2338-5359
2614-2627
publishDate 2021-01-01
description Fe3O4 encapsulated PEG form iron sand at wari ino beach has been successfully synthesized by co-precipitation method. The average particle size  of the nanoparticle 11,3 nm was determined by scherrer formula. Fe3O4 modification PEG 4000 was successfully encapsulated the samples  by the presence C-O-C and CH bonding that were characterized using Fourier Transform Infra Red (FTIR), X-Ray Diffraction (XRD) pattern  shows that all samples  are formed by single  phase cubic spinel magnetite  , and Scanning Electron Microscopy (SEM) shows the  high dispersion capability while encapsulated process using  PEG. The results of the characterization show that the Fe3O4 successfully encapsulated by PEG 4000.
topic Fe3O4 Nanoparticles; Fe3O4 / PEG 4000; Biosensor; Spinel Structure
url https://ojs3.unpatti.ac.id/index.php/ijcr/article/view/2363
work_keys_str_mv AT kurniakurnia studymicrostructureoffe3o4modificationusingpeg4000formironsandatwariinobeachasabiosensorapplication
AT meidykaseside studymicrostructureoffe3o4modificationusingpeg4000formironsandatwariinobeachasabiosensorapplication
AT steveniwamony studymicrostructureoffe3o4modificationusingpeg4000formironsandatwariinobeachasabiosensorapplication
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