ACADSTAFF UGM
| Title | : | Detection of green-synthesized magnetite nanoparticles using spin-valve GMR-based sensor and their potential as magnetic labels |
| Author | : |
NI'MATIL MABARROH (1) TAUFIKUDDIN A (2) NUR AJI WIBOWO (3) NURUL IMANI I (4) RIVALDO MARSEL T (5) Dr.Eng. Edi Suharyadi, S.Si., M.Eng. (6) |
| Date | : | 8 2022 |
| Keyword | : | Giant magnetoresistance ,Green synthesis,Magnetite nanoparticles,Magnetic labels ,Moringa oleifera extract Giant magnetoresistance ,Green synthesis,Magnetite nanoparticles,Magnetic labels ,Moringa oleifera extract |
| Abstract | : | Exploration of magnetic nanoparticle labels for giant magnetoresistance (GMR) biosensing technology is crucial because their characteristics determine GMR-based sensor performance, related to their stray field and compatibility to biomolecule. We investigated the potency of the green-synthesized magnetite (Fe3O4) nanoparticle as a green-magnetic label on a spin-valve (SV) GMR sensor based on a [Ta (2 nm)/Ir20Mn80 (10 nm)/Co90Fe10 (3 nm)/Cu (2.2 nm)/(Co84Fe10B4 (10 nm)/Ta (5 nm)] structure that generated a 7.3 Oe exchange-bias field and 5.73% magnetoresistance. Fe3O4 nanoparticles were synthesized by a chemical coprecipitation method utilizing Moringa oleifera (MO) leaf extract as a natural reducing agent. The green-synthesized Fe3O4 nanoparticles exhibited a cubic inverse spinel structure as a pristine Fe3O4 characteristic. The crystallite size of green-synthesized Fe3O4 was larger than that of Fe3O4, reaching ∼ 14 nm, and formed a particle size of 29.1 nm. Its magnetic properties included soft ferromagnetic behavior with 55.5 emu/g saturation magnetization and 54 Oe coercivity; its saturation was lower than that of Fe3O4 due to the presence of the phytochemical compound of MO extract. In addition, to observe its potency as a magnetic label for biosensing, conventionally synthesized nanoparticles, surface modification using polyethylene glycol (PEG), and attachment of an α-amylase enzyme as a biomarker sample on green nanoparticle labels were also investigated. When measuring various concentration labels using the SV-GMR thin film, the green-synthesized Fe3O4 achieved a linear relationship and a better sensitivity of 0.098 mV/mg/mL than that of the conventional compound. The sensor could detect Fe3O4-labelled α-amylase enzyme as indicated by the decreasing output voltage, a consequence of altering the surface conditions of the nanoparticles. Therefore, green-synthesized nanoparticles are reliable and achieve competitive performance as magnetic labels in GMR sensors. |
| Group of Knowledge | : | Fisika |
| Original Language | : | English |
| Level | : | Internasional |
| Status | : |
Published
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| No | Title | Action |
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| 1 |
JMMM-Juli-2022.pdf
Document Type : [PAK] Cek Similarity
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| 2 |
L1_Jurnal_Juli2022_Edi-SUHARYADI_GMR.pdf
Document Type : Dokumen Pendukung Karya Ilmiah (Hibah, Publikasi, Penelitian, Pengabdian)
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| 3 |
2022 JMMM Nining Bukti Korespondensi_compressed.pdf
Document Type : [PAK] Bukti Korespondensi Penulis
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| 4 |
2022 JMMMMabarroh Lengkap.pdf
Document Type : [PAK] Full Dokumen
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