Biomedical Engineering Reference
In-Depth Information
de Chatel PF, Nandori I, Hakl J, Meszaros S, Vad K. Magnetic particle hyperthermia: Neel
relaxation in magnetic nanoparticles under circularly polarized field. Journal of Physics:
Condensed Matter 124202 (8 pp.), 2009.
Chan DCF, Kirpotin DB, Bunn PA. Synthesis and evaluation of colloidal magnetic iron-oxides for
the site-specific raduifrequency-induced hyperthermia of cancer. Journal of Magnetism and
Magnetic Materials 122(1-3): 374-378, 1993.
Johannsen M, Gneveckow U, Taymoorian K, Thiesen B, Waldofner N, Scholz R, Jung K, Jordan A,
Wust P, Loening SA. Morbidity and quality of life during thermotherapy using magnetic nano-
particles in locally recurrent prostate cancer: Results of a prospective phase I trial. International
Journal of Hyperthermia 23(3): 315-323, 2007.
Varanda LC, Imaizumi M, Santos FJ, Jafelicci M. Iron oxide versus Fe55Pt45/Fe3O4: Improved
magnetic properties of core/shell nanoparticles for biomedical applications. IEEE Transactions
on Magnetics 44(11): 4448-4451, 2008.
Gu YY, Tan XP, Liang SQ, Sang SB. Effects of La3+ doping on MnZn ferrite nanoscale particles
synthesized by hydrothermal method. Journal of Central South University of Technology
11(2): 166-168, 2004.
Uskokovic V, Kosak A, Drofenik M. Preparation of silica-coated lanthanum-strontium manganite
particles with designable curie point, for application in hyperthermia treatments. International
Journal of Applied Ceramic Technology 3(2): 134-143, 2006.
Parekh K, Upadhyay RV, Belova L, Rao KV. Ternary monodispersed Mn0.5Zn0.5Fe2O4
ferrite nanoparticles: preparation and magnetic characterization. Nanotechnology 17(24):
5970-5975, 2006.
Sithararnan B, Wilson LJ. Gadonanotubes as new high-performance MRI contrast agents.
International Journal of Nanomedicine 1(3): 291-295, 2006.
Pereira C, Pereira AM, Quaresma P, Tavares PB, Pereira E, Araujo JP, Freire C. Superparamagnetic
gamma-Fe2O3@SiO2 nanoparticles: a novel support for the immobilization of VO(acac)2.
Dalton Trans 39(11): 2842-54, 2010.
Ravel B, Carpenter EE, Harris VG. Oxidation of iron in iron/gold core/shell nanoparticles. Journal
of Applied Physics 91(10): 8195-8197, 2002.
Tamer U, Gundogdu Y, Boyaci IH, Pekmez K. Synthesis of magnetic core-shell Fe3O4-Au
nanoparticle for biomolecule immobilization and detection. Journal of Nanoparticle Research
12(4): 1187-1196, 2010.
Choi JY, Kim K, Shin KS. Surface-enhanced Raman scattering inducible by recyclable Ag-coated
magnetic particles. Vibrational Spectroscopy 53(1): 117-120, 2010.
Ding H, Shen CM, Hui C, Xu ZC, Li C, Tian Y, Shi XZ, Gao HJ. Synthesis and properties of
Au-Fe3O4 and Ag-Fe3O4 heterodimeric nanoparticles. Chinese Physics B 19(6): 066102
(6 pp.), 2010.
De La Cruz-Montoya E, Rinaldi C. Synthesis and characterization of polymer nanocomposites
containing magnetic nanoparticles. Journal of Applied Physics 107(9): 2010.
Zhou L, Gao C, Xu WJ. Robust Fe3O4/SiO2-Pt/Au/Pd magnetic nanocatalysts with multifunc-
tional hyperbranched polyglycerol amplifiers. Langmuir 26(13): 11217-11225, 2010.
Zelenakova A, Zelenak V, Degmova J, Kovac J, Sedlackova K, Kusy M, Sitek J. The iron-gold
magnetic nanoparticles: preparation,characterization and magnetic properties. Reviews on
Advanced Materials Science 18(6): 501-504, 2008.
Ban ZH, Barnakov YA, Golub VO, O'Connor CJ. The synthesis of core-shell iron@gold nano-
particles and their characterization. Journal of Materials Chemistry 15(43): 4660-4662, 2005.
Jafari T, Simchi A, Khakpash N. Synthesis and cytotoxicity assessment of superparamagnetic
iron-gold core-shell nanoparticles coated with polyglycerol. Journal of Colloid and Interface
Science 345(1): 64-71, 2010.
Huber DL. Synthesis, properties, and applications of iron nanoparticles. Small 1(5): 482-501, 2005.
Klingeler R, Hampel S, Buchner B. Carbon nanotube based biomedical agents for heating,
temperature sensoring and drug delivery. International Journal of Hyperthermia 24(6):
496-505, 2008.
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