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Literature DB >> 26405373

Size-dependant heating rates of iron oxide nanoparticles for magnetic fluid hyperthermia.

Marcela Gonzales-Weimuller¹, Matthias Zeisberger², Kannan M Krishnan¹.

Abstract

Using the thermal decomposition of organometallics method we have synthesized high-quality, iron oxide nanoparticles of tailorable size up to ~15nm and transferred them to a water phase by coating with a biocompatible polymer. The magnetic behavior of these particles was measured and fit to a log-normal distribution using the Chantrell method and their polydispersity was confirmed to be very narrow. By performing calorimetry measurements with these monodisperse particles we have unambiguously demonstrated, for the first time, that at a given frequency, heating rates of superparamagnetic particles are dependent on particle size, in agreement with earlier theoretical predictions.

Entities: Chemical Disease Gene

Keywords: Magnetic fluid hyperthermia; Magnetic relaxation; Nanoparticle; Superparmagnetism

Year: 2009 PMID： 26405373 PMCID： PMC4578659 DOI： 10.1016/j.jmmm.2008.12.017

Source DB: PubMed Journal: J Magn Magn Mater ISSN： 0304-8853 Impact factor: 2.993

1 in total

1. Synthesis of highly crystalline and monodisperse maghemite nanocrystallites without a size-selection process.

Authors: T Hyeon; S S Lee; J Park; Y Chung; H B Na
Journal: J Am Chem Soc Date: 2001-12-26 Impact factor: 15.419

1 in total

42 in total

1. Morphology and magnetic flux distribution in superparamagnetic, single-crystalline Fe₃O₄ nanoparticle rings.

Authors: Yumu Takeno; Yasukazu Murakami; Takeshi Sato; Toshiaki Tanigaki; Hyun Soon Park; Daisuke Shindo; R Matthew Ferguson; Kannan M Krishnan
Journal: Appl Phys Lett Date: 2014-11-03 Impact factor: 3.791

Review 2. Recent progress on magnetic iron oxide nanoparticles: synthesis, surface functional strategies and biomedical applications.

Authors: Wei Wu; Zhaohui Wu; Taekyung Yu; Changzhong Jiang; Woo-Sik Kim
Journal: Sci Technol Adv Mater Date: 2015-04-28 Impact factor: 8.090

3. Tailored magnetic nanoparticles for optimizing magnetic fluid hyperthermia.

Authors: Amit P Khandhar; R Matthew Ferguson; Julian A Simon; Kannan M Krishnan
Journal: J Biomed Mater Res A Date: 2011-12-30 Impact factor: 4.396

Review 4. Magnetic nanomaterials for hyperthermia-based therapy and controlled drug delivery.

Authors: Challa S S R Kumar; Faruq Mohammad
Journal: Adv Drug Deliv Rev Date: 2011-04-05 Impact factor: 15.470

5. Controlling Iron Oxide Nanoparticle Clustering Using Dual Solvent Exchange Coating Method.

Authors: Travis A Meyer; Christopher A Quinto; Gang Bao
Journal: IEEE Magn Lett Date: 2015-12-11 Impact factor: 1.549

6. Impact of magnetic field parameters and iron oxide nanoparticle properties on heat generation for use in magnetic hyperthermia.

Authors: Rhythm R Shah; Todd P Davis; Amanda L Glover; David E Nikles; Christopher S Brazel
Journal: J Magn Magn Mater Date: 2015-08-01 Impact factor: 2.993

7. Determining iron oxide nanoparticle heating efficiency and elucidating local nanoparticle temperature for application in agarose gel-based tumor model.

Authors: Rhythm R Shah; Alexander R Dombrowsky; Abigail L Paulson; Margaret P Johnson; David E Nikles; Christopher S Brazel
Journal: Mater Sci Eng C Mater Biol Appl Date: 2016-05-21 Impact factor: 7.328