Article

Effect of Polymer Adsorption in Magnetic Nanoparticle Dispersion by Rheological and Magnetic Characterizations
Kwan Han Yoon and Young Sil Lee^*,†
Department of Chemical Engineering, Kumoh National Institute of Technology, 61 Daehak-ro (yangho-dong), Gumi, Gyeongbuk 39177, Korea
*Industry-Academic Cooperation Foundation, Kumoh National Institute of Technology, 61 Daehak-ro (yangho-dong), Gumi, Gyeongbuk 39177, Korea
흡착된 고분자가 자성 나노입자 분산액의 유변학적, 자기적 특성에 미치는 영향
윤관한 · 이영실^*,†
금오공과대학교 화학공학과, *금오공과대학교 산학협력단
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References

1. Butler, K. T.; Davies, D. W.; Cartwright, H.; Isayev, O.; Walsh, A. Machine Learning for Molecular and Materials Science. Nature 2018, 559, 547-555.
2. Severson, K. A.; Attia, P. M.; Jin, N.; Perkins, N.; Jiang, B.; Yang, Z.; Chen, M. H.; Aykol, M.; Herring, P. K.; Fraggedakis, D.; Bazant , M.; Harris , S. J.; Chueh, W. C.; Braatz, R. D. Data-driven Prediction of Battery Cycle Life Before Capacity Degradation. Nat. Energy 2019, 4,383-391.
3. Nishio, H.; Yamamoto, H. Long-Term Magnetization Stability of Data Storage Tape Prepared from Ultrafine Metal Particles IEEE Trans. Magn. 2010, 46,3747-3751.
4. Fontana, R. E. Jr; Decad, G. M.; Hetzler, S. R. Volumetric Density Trends (TB/in.³) for Storage Components: TAPE, Hard Disk Drives, NAND, and Blu-ray. J. Appl. Phys. 2015, 117, 17E301.
5. Uyama, T.; Mukai, K.; Yamada, I. Facile and Low-Temperature Synthesis of γ-Fe₂O₃ Nanoparticles with Thermally Stable Ferrimagnetism for Use in Magnetic Recording Tapes. ACS Appl. Nano. Mater. 2020, 3, 10678-10690.
6. Weick, B. Viscoelastic Analysis Applied to the Determination of Long-term Creep Behavior for Magnetic Tape Materials. J. Appl. Polym. Sci. 2006, 102, 1106-1128.
7. Shokrollahi, H. A Review of the Magnetic Properties, Synthesis Methods and Applications of Maghemite. J. Magn. Magn. Mater. 2017, 426, 74-81.
8. Goss, C. J. Saturation Magnetisation, Coercivity and Lattice Parameter Changes in the System Fe₃O₄-γ-Fe₂O₃, and Their Relationship to Structure. Phys. Chem. Miner. 1988, 16, 164-171.
9. Harasawa, T.; Suzuki, R.; Shimizu, O.; Ölçer, S. Barium-Ferrite Particulate Media for High-Recording-Density Tape Storage Systems. IEEE Trans. Magn. 2010, 46, 1894-1897.
10. Ohkoshi, S.-I.; Namai, A.; Yoshikiyo, M.; Imoto, K.; Tamazaki, K.; Matsuno, K.; Inoue, O.; Ide, T; Masada, K.; Goto, M.; Goto, T.; Yoshida, T.; Miyazaki, T. Multimetal-Substituted Epsilon-Iron Oxide e-Ga_0.31Ti_0.05Co_0.05Fe_1.59O₃ for Next-Generation Magnetic Recording Tape in the Big-Data Era. Angew. Chem. 2016, 128, 11403-11406.
11. Bremer, L. G. B.; van Vliet, T.; Walstra, P. Theoretical and Experimental Study of the Fractal Nature of the Structure of Casein Gels. J. Chem. Soc., Faraday Trans. 1 1989, 85, 3359-3372.
12. Buscall, R.; Mills, P. D. A.; Goodwin, J. W.; Lawson, D. W. Scaling Behaviour of the Rheology of Aggregate Networks Formed from Colloidal Particles. J. Chem. Soc., Faraday Trans. 1 1988, 84,4249-4260.
13. Khan, S. A.; Zoeller N. J. Dynamic Rheological Behavior of Flocculated Fumed Silica Suspensions. J. Rheol. 1993, 37,1225-1235.
14. Wessel, R.; Ball, R. C. Fractal Aggregates and Gels in Shear Flow. Phys. Rev. A 1992, 46, R3008.
15. Chae, B. S.; Lee, Y. S.; Jhon, M. S. The Scaling Behavior of a Highly Aggregated Colloidal Suspension Microstructure and Its Change in Shear Flow. Colloid. Polym. Sci. 2004, 282, 236-242.
16. Lee, Y. S.; Chae, B. S.; Lane, A. M.; Wiest, J. M. Rheological Behavior and Microstructure of Magnetic Dispersions with Varying Nonmagnetic Particle Content. Colloid Surface A 2003, 224, 23-31.
17. Jenckel, E.; Rumbach, B. Über die Adsorption von hochmolekularen Stoffen aus der Lösung. Z. Elektrochem. 1951, 55, 612-618.
18. Tadros, T. F. The Effect of Polymers on Dispersion Properties;Academic Press: London,1982.
19. Jeon, K. S.; Lane, A. M. Polymer Adsorption on Magnetic Particles. J. Magn. Magn. Mater. 1999, 193, 300-302.
20. Cosgrove, T.; Griffiths, P. C.; Lloyd, P. M. Polymer Adsorption. The Effect of the Relative Sizes of Polymer and Particle. Langmuir 1995, 11, 1457-1463.
21. Inoue, H.; Fukke, H.; Akagi, M.; Katsumoto, M. Polymer Adsorption on a Magnetic Particle in a Dispersion System. J. Magn. Magn. Mater. 1993, 118, 263-270.
22. Peng, Z. G.; Hidajat, K.; Uddin, M. S. Adsorption of Bovine Serum Albumin on Nanosized Magnetic Particles. J. Colloid Interface Sci. 2004, 271, 277-283.
23. Tiraferri, A.; Borkovec, M. Probing Effects of Polymer Adsorption in Colloidal Particle Suspensions by Light Scattering as Relevant for the Aquatic Environment: An Overview. Sci. Total. Environ. 2015, 535, 131-140.
24. Lionberger, R. A.; Russel, W. B. A Smoluchowski Theory with Simple Approximations for Hydrodynamic Interactions in Concentrated Dispersions. J. Rheol. 1997, 41, 399-426.
25. Krieger, L. M.; Dougherty, T. J. A Mechanism for Non-Newtonian flow in Suspensions of Rigid Spheres. Trans. Soc. Rheol. 1959, 3, 137-151.
26. Kwon, T. M.; Jhon, M. S.; Choi, H. J. Rheological Study of Magnetic Particle Suspensions. Mater. Chem. Phys. 1997, 49, 225-228.
27. Gokturk, H.; Maki, K. Evaluation of a Magnetic Dispersion by Interparticle Interactions. J. Magn. Magn. Mater. 1996, 154, 279-290.
28. Kanai, H.; Navarrete, R. C.; Macosko, C. W.; Scriven, L. E. Fragile Networks and Rheology of Concentrated Suspensions. Rheol. Acta. 1992, 31, 333-344.
29. Rehacek, K. Pigment-Binder Interaction in Paints. Ind. Eng. Chem. Prod. Res. Dev. 1976, 15, 75-81.
30. Sollis, P. M.; Bissell, P. R.; Mayo, P. I.; Chantrell, R. W.; Gilson, R. G.; O'Grady, K. Characterisation of the Dispersion Process Using Transverse Susceptibility Measurements. J. Magn. Magn. Mater. 1993, 120, 94-96.
31. Pshenichnikov, A. F.; Fedorenko, A. A. Chain-like Aggregates in Magnetic Fluids. J. Magn. Magn. Mater. 2005, 292, 332-344.

Polymer(Korea) 폴리머
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This Article

2023; 47(2): 199-205

Published online Mar 25, 2023
10.7317/pk.2023.47.2.199
Received on Nov 21, 2022
Revised on Dec 26, 2022
Accepted on Jan 9, 2023

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Correspondence to

Young Sil Lee
Industry-Academic Cooperation Foundation, Kumoh National Institute of Technology, 61 Daehak-ro (yangho-dong), Gumi, Gyeongbuk 39177, Korea
E-mail: youngsil@kumoh.ac.kr