Curing Epoxy With Electrochemically Synthesized Coxfe3- Xo4 Magnetic Nanoparticles

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Curing Epoxy With Electrochemically Synthesized Coxfe3- Xo4 Magnetic Nanoparticles Publisher

Jouyandeh M^{1, 2} ; Ganjali MR^{1, 3} ; Ali JA⁴ ; Aghazadeh M¹ ; Stadler FJ⁵ ; Saeb MR⁶

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1. Center of Excellence in Electrochemistry, School of Chemistry, College of Science, University of Tehran, Tehran, Iran
2. Advanced Materials Group, Iranian Color Society (ICS), P.O. Box 1591637144, Tehran, Iran
3. Biosensor Research Center, Endocrinology and Metabolism Molecular-Cellular Sciences Institute, Tehran University of Medical Sciences, Tehran, Iran
4. Department of Petroleum Engineering, Faculty of Engineering, Soran University, Kurdistan Region, Iraq
5. College of Materials Science and Engineering, Shenzhen Key Laboratory of Polymer Science and Technology, Guangdong Research Center for Interfacial Engineering of Functional Materials, Nanshan District Key Lab for Biopolymers and Safety Evaluation, Shenzhen University, Shenzhen, 518055, China
6. Department of Resin and Additives, Institute for Color Science and Technology, P.O. Box, Tehran, 16765-654, Iran

Source: Progress in Organic Coatings Published:2019

Abstract

Electrochemical method was utilized in one-pot synthesis of Fe3O4 magnetic nanoparticles (MNPs), and also cobalt (Co)-doped MNPs in which Co2+ cations were exchanged partially with Fe2+ in the ferrite structure. Different techniques including vibrating sample magnetometry (VSM), X-Ray diffraction (XRD), field-emission scanning electron microscopy (FE-SEM) and energy dispersive X-ray spectroscopy were used in characterization of MNPs’ structural changes. Well-characterized nanoparticles were then incorporated into epoxy/amine system to study their curing potential on the ground of the effect of Fe2+ and Co2+ cations. A very low amount of MNPs was applied in preparation of epoxy/Fe3O4 and epoxy/Co2+-Fe3O4 nanocomposites to comparatively infer the sensitivity of epoxy curing reaction to Fe2+ and Co2+ cations. Nonisothermal DSC was utilized under different heating rates to evaluate curability of nanocomposites in terms of Cure Index. Overall, the amount of heat released in the course of curing of nanocomposites containing Co2+-doped MNPs was significantly higher than that for epoxy/MNPs system, demonstrating that Co2+ doping improves the curing reaction between epoxy and curing agent. This was qualitatively approved by a shift seen from Poor to Good cure, particularly at lower heating rates, demonstrated by the Cure Index. © 2019 Elsevier B.V.

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Style	Citing Format
MLA	Jouyandeh M, et al.. "Curing Epoxy With Electrochemically Synthesized Coxfe3- Xo4 Magnetic Nanoparticles." Progress in Organic Coatings, vol. 137, no. , 2019, pp. -.
APA	Jouyandeh M, Ganjali MR, Ali JA, Aghazadeh M, Stadler FJ, Saeb MR (2019). Curing Epoxy With Electrochemically Synthesized Coxfe3- Xo4 Magnetic Nanoparticles. Progress in Organic Coatings, 137(), -.
Chicago	Jouyandeh M, Ganjali MR, Ali JA, Aghazadeh M, Stadler FJ, Saeb MR. "Curing Epoxy With Electrochemically Synthesized Coxfe3- Xo4 Magnetic Nanoparticles." Progress in Organic Coatings 137, no. (2019): -.
Harvard	Jouyandeh M et al. (2019) 'Curing Epoxy With Electrochemically Synthesized Coxfe3- Xo4 Magnetic Nanoparticles', Progress in Organic Coatings, 137(), pp. -.
Vancouver	Jouyandeh M, Ganjali MR, Ali JA, Aghazadeh M, Stadler FJ, Saeb MR. Curing Epoxy With Electrochemically Synthesized Coxfe3- Xo4 Magnetic Nanoparticles. Progress in Organic Coatings. 2019;137():-.
BibTex	@article{ author = {Jouyandeh M and Ganjali MR and Ali JA and Aghazadeh M and Stadler FJ and Saeb MR}, title = {Curing Epoxy With Electrochemically Synthesized Coxfe3- Xo4 Magnetic Nanoparticles}, journal = {Progress in Organic Coatings}, volume = {137}, number = {}, pages = {-}, year = {2019} }
RIS	TY - JOUR AU - Jouyandeh M AU - Ganjali MR AU - Ali JA AU - Aghazadeh M AU - Stadler FJ AU - Saeb MR TI - Curing Epoxy With Electrochemically Synthesized Coxfe3- Xo4 Magnetic Nanoparticles JO - Progress in Organic Coatings VL - 137 IS - SP - EP - PY - 2019 ER -

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