Biomedical Engineering Reference
In-Depth Information
giant perpendicular magnetocrystalline anisotropy and large magnetic energy
product,' Adv Mater, vol. 24, pp. 4547-51, Aug 28 2012.
43. P. Granitzer, et al., 'Porous silicon/Ni composites of high coercivity due to
magnetic field-assisted etching,' Nanoscale Res Lett, vol. 7, p. 384, 2012.
44. R. Fernandez, et al., 'Microstructural enhancement of high coercivity L1(0)-
FePt films
for next-generation magnetic
recording media,' J Nanosci
Nanotechnol, vol. 11, pp. 3889-93, May 2011.
45. Z. X. Wang, et al., 'Synchronized time- and high-field-resolved all-optical
pump-probe magneto-optical setup based on a strong alternating magnetic field
and its application in magnetization dynamics of high coercivity magnetic
medium,' Rev Sci Instrum, vol. 82, p. 034703, Mar 2011.
46. M. Urbaniak, et al., 'Domain-wall movement control in Co/Au multilayers by
He(+)-ion-bombardment-induced lateral coercivity gradients,' Phys Rev Lett,
vol. 105, p. 067202, Aug 6 2010.
47. T. N. Narayanan, et al., 'The synthesis of high coercivity cobalt-in-carbon
nanotube
hybrid
structures
and
their
optical
limiting
properties,'
Nanotechnology, vol. 20, p. 285702, Jul 15 2009.
48. J. Escrig, et al., 'Geometry dependence of coercivity in Ni nanowire arrays,'
Nanotechnology, vol. 19, p. 075713, Feb 20 2008.
49. J. N. Wang, et al., 'Synthesis of carbon encapsulated magnetic nanoparticles
with giant coercivity by a spray pyrolysis approach,' J Phys Chem B, vol. 111,
pp. 2119-24, Mar 1 2007.
50. F. Iskandar, et al., 'High coercivity of ordered macroporous fept films
synthesized via colloidal templates,' Nano Lett, vol. 5, pp. 1525-8, Jul 2005.
51. S. Maheswaran, et al., 'Phosphonate ligands stabilize mixed-valent {Mn(III)
(20-x)Mn(II)x} clusters with large spin and coercivity,' Angew Chem Int Ed
Engl, vol. 44, pp. 5044-8, Aug 12 2005.
52. H. P. Liang, et al., 'Ni-Pt multilayered nanowire arrays with enhanced
coercivity and high remanence ratio,' Inorg Chem, vol. 44, pp. 3013-5, May 2
2005.
53. L. Pust, et al., 'Domain-wall coercivity in ferromagnetic systems with
nonuniform local magnetic field,' Phys Rev B Condens Matter, vol. 54,
pp. 12262-71, Nov 1 1996.
54. F. Cebollada, et al., 'Angular dependence of coercivity in Nd-Fe-B sintered
magnets: Proof that coherent rotation is not involved,' Phys Rev B Condens
Matter, vol. 52, pp. 13511-8, Nov 1 1995.
55. X. C. Kou, et al., 'Coercivity mechanism of sintered Pr17Fe75B8 and
Pr17Fe53B30 permanent magnets,' Phys Rev B Condens Matter, vol. 50,
pp. 3849-60, Aug 1 1994.
56. D. I. Paul and A. Cresswell, 'Single-domain crystal-anisotropy-dominated
coercivity,' Phys Rev B Condens Matter, vol. 48, pp. 3803-9, Aug 1 1993.
57. N. Paunovic, et al., 'Superparamagnetism in iron-doped CeO(2-y)
nanocrystals,' J Phys Condens Matter, vol. 24, p. 456001, Nov 14 2012.
58. S. W. Kim, et al., 'Superparamagnetism of Cu2Se nanoparticles,' J Nanosci
Nanotechnol, vol. 12, pp. 5880-3, Jul 2012.
59. B. Ghosh, et al., 'Observation of superparamagnetism to flux closure behaviour
in ZnO nanoparticle agglomerates,' J Phys Condens Matter, vol. 24, p. 366002,
Sep 12 2012.
