P
Pham Thanh Phong
Researcher at Ton Duc Thang University
Publications - 81
Citations - 1492
Pham Thanh Phong is an academic researcher from Ton Duc Thang University. The author has contributed to research in topics: Magnetization & Transition temperature. The author has an hindex of 23, co-authored 74 publications receiving 1191 citations. Previous affiliations of Pham Thanh Phong include Vietnam Academy of Science and Technology & Dongguk University.
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Structural and magnetic study of La0.7Sr0.3MnO3 nanoparticles and AC magnetic heating characteristics for hyperthermia applications
TL;DR: In this article, structural and magnetic properties and alternating current magnetic heating characteristics of La 0.7 Sr 0.3 MnO 3 nanoparticles with respect to the possible application for magnetic hyperthermia treatments were investigated.
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Structural, magnetic and magnetotransport behavior of La0.7SrxCa0.3−xMnO3 compounds
Tran Dang Thanh,L.H. Nguyen,Do Hung Manh,N.V. Chien,Pham Thanh Phong,N.V. Khiem,Le Van Hong,N.X. Phuc +7 more
TL;DR: In this paper, the structural, magnetic and electrical properties of a series of nanocrystalline La 0.7 Ca 0.3−x MnO 3 materials, prepared by high energy ball milling method and then annealed at 900°C has been undertaken.
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Size-controlled heating ability of CoFe 2 O 4 nanoparticles for hyperthermia applications
TL;DR: In this paper, the magnetic properties and heating capacity of cobalt ferrite (CoFe2O4) nanoparticles 13-24nm in size were studied and the specific absorption rate of the nanoparticles strongly depended on their magnetic properties.
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Critical parameters near the ferromagnetic-paramagnetic phase transition in La0.7A0.3(Mn1-xbx)O3 (A = Sr; B = Ti and Al; x = 0.0 and 0.05) compounds
TL;DR: In this paper, a thorough study for the critical behavior of La0.7A0.3 polycrystalline samples near ferromagnetic-paramagnetic phase transition temperature by analyzing isothermal magnetization data is presented.
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Mn 0.5 Zn 0.5 Fe 2 O 4 nanoparticles with high intrinsic loss power for hyperthermia therapy
TL;DR: In this article, the authors used a dynamic scaling analysis on the frequency dependence of spin glass-like transition temperature well explains the model of a transition at finite temperature in Mn0.5Zn0.4 particles.