Functional Materials Lab Functional Materials Laboratory

  
  Home Department of Physics USF

 
 
 

2017 2016 2015 2014  2013 2012 2011 2010 Prior to 2010
2016

           

    1.      M.H. Phan, J. Alonso, H. Khurshid, P. Lampen-Kelley, S. Chardra, K. Stojak, Z.N. Porshokouh, R. Das, Ò. Iglesias, and H. Srikanth, Exchange Bias Effects in Iron Oxide Based Nanoparticle Systems (Feature Review Article), Nanomaterials 2016;6:221 

    2.      J.S. Liu, Z. Li,  H.X. Shen,  F.X. Qin,  S. Jiang,  Z.X. Du,  M.H. Phan, and J.F. Sun
    Composite electroplating to enhance the GMI output stability of melt-extracted wires
    Materials and Design     2016;96:251 

    3.      H.T. Tran, J. Devkota, T. Eggers, J. Wingo, W. Cai, I. Skorvanek, H. Srikanth, M.H. Phan
    Anisotropic mechnical, magnetic, and giant magneto-impedance properties of Co-rich amorphous ribbons
    Journal of Electronic Materials 2016;45:2278

    4.      D. S. Lam, J. Devkota, N. T. Huong, H. Srikanth, and M.H. Phan
    Enhanced high-frequency magnetoresistance responses of melt-extracted Co-rich soft ferromagnetic microwires
    Journal of Electronic Materials 2016;45:2395

    5.      O. Thiabgoh, T. Eggers, H. Shen, A. Galati, J. Sida, J. F. Sun, H. Srikanth, and M.H. Phan
    Enhanced high-frequency GMI response of melt-extracted amorphous Co69.25Fe4.25Si13B13.5 microwires subject to Joule annealing
    Journal of Science: Advanced Materials and Devices 2016:1:69

    6.      J. Monreal, T. Eggers, M.H. Phan, and Donald T. Haynie
    Dielectric Analysis of Aqueous Poly(L-glutamic acid) and Poly-L-(glutamic acid4, Tyrosine1) Solutions at High Frequencies from Capacitance Measurements 
    Journal of Science: Advanced Materials and Devices     2016;1:521 

    7.      T. Eggers, A. Leary, M. McHenry, J. Martin, I. Skorvanek, H. Srikanth, and M.H. Phan 
    Correlation between domain structure, surface anisotropy and high frequency magneto-impedance in Joule annealed CoFe-based melt-spun ribbons
    Journal of Alloys and Compounds     2016;682:799     

    8.      A. Talaat, J. Alonso, V. Zhukova, E. Garaio, J. A. García, H. Srikanth, M.H. Phan, and A. Zhukov 
    Ferromagnetic glass-coated microwires with excellent inductive heating properties for magnetic hyperthermia 
    Nature: Scientific Reports     2016;6:39300

    9.      H.X. Shen, D.W. Xing, J.L. Sánchez Llamazares, C.F. Sánchez-Valdés, H. Belliveau, H. Wang, F.X. Qin, Y.F. Liu, J.F. Sun, H. Srikanth, and M.H. Phan
    Enhanced refrigerant capacity in Gd-Al-Co microwires with a biphase nanocrystalline/amorphous structure
    Applied Physics Letters 2016;108:092403 

    10.  X.L. Hou, N. Han, Y. Xue, Q.Q. Lu, H. Xu, M.H. Phan
    Tunable magnetocaloric response in high-speed melt-spun La-Ce-Fe-Si ribbons
    Journal of Electronic Materials 2016

    11.  X.L. Hou, Y. Tian, Y. Xue, C.Y. Liu, W.X. Xia, H. Xu, P. Lampen-Kelley, H. Srikanth, and M.H. Phan
    Formation of tree-like and vortex magnetic domains of nanocrystalline a-(Fe,Si) in La-Fe-Si ribbons during rapid solidification and subsequent annealing
    Journal of Alloys and Compounds 2016;669:205

    12.  T. A. Ho, M. H. Phan, V. D. Lam, T. L. Phan, and S. C. Yu
    Influence of Ti doping on the critical behavior and magnetocaloric effect in disordered ferromagnets La0.7Ba0.3Mn1-xTixO3
    Journal of Electronic Materials 2016;45:2508

    13.  X.L. Hou, Y. Xue, N. Han, Q.Q. Lu, X.C. Wang, M.H. Phan, Y.B. Zhong
    Nanocrystalline Ce1-xLaxO2 Solid Solutions Synthesized by Hydrolyzing and Oxidizing 
    Journal of Electronic Materials 2016;45:2553

    14.  Daniel J. Denmark, Janae Bradley, Devajyoti Mukherjee, Javier Alonso, M.H. Phan, Hariharan Srikanth, Sarath Witanachchi, and Pritish Mukherjee
    Remote Triggering of Thermoresponsive PNIPAM by Iron Oxide Nanoparticles
    RSC Advances 2016;6:5641

    15.  A.T. Le, C.D. Giang, V.N. Phan, J. Alonso, J. Devkota, H. Srikanth, and M.H. Phan
    Enhanced magnetic anisotropy and hyperthermia in multi-functional manganese ferrite/graphene oxide hybrid nanostructures
    Nanotechnology 2016;27:155707

    16.  J. Alonso, H. Khurshid, J. Devkota, Nawal K. Khadka, H. Srikanth, J.J. Pan, and M.H. Phan
    Superparamagnetic Nanoparticles Encapsulated in Lipid Vesicles for Advanced Magnetic Hyperthermia and Biodetection
    Journal of Applied Physics 2016;119:083904 

    17.  D.K. Tung, D.H. Manh, L.T.H. Phong, P.H. Nam, D.N.H. Nam, N.T.N. Anh, H.T.T. Nong, M.H. Phan, and N.X. Phuc
    Iron nanoparticles fabricated by high energy ball milling for magnetic hyperthermia 
    Journal of Electronic Materials 2016;45:2644 

    18.  Z. Nemati, J. Alonso, L. M. Martinez, H. Khurshid, E. Garaio, J.A. Garcia, M.H. Phan, and H. Srikanth
    Iron Oxide Nano-Octopods with Tunable Sizes for Enhanced Hyperthermia
    The Journal of Physical Chemistry C 2016;120:8370

    19.  Raja Das, Javier Alonso, Zohreh Nemati Porshokouh, Vijaysankar Kalappattil, David Torres, M.H. Phan, Eneko Garayo, José Ángel García, J.Luis Sanchez Llamazares, and H. Srikanth
    Tunable High Aspect Ratio Iron Oxide Nanorods for Enhanced Hyperthermia
    The Journal of Physical Chemistry C 2016;120:10086

    20.  Z. Nemati, J. Alonso, H. Khurshid, M.H. Phan, and H. Srikanth
    Core/shell iron/iron oxide nanoparticles: Are they promising for magnetic hyperthermia?
    RSC Advances 2016;6:38697

    21.  R. Das, N. Rinaldi-Montes, J. Alonso, Z. Amghouz, P. Gorria, J.A. Blanco, M.H. Phan, and H. Srikanth
    Ag@Fe3O4 nanoflowers as dual agents for magnetic hyperthermia and photo-thermal therapy
    ACS Applied Materials and Interfaces 2016;8:25162

    22.  M.H. Phan and D. Mandrus
    Cooling achieved by rotating an anisotropic superconductor in a constant magnetic field: A new perspective
    AIP Advances 2016;6:125022