Journal
AICHE JOURNAL
Volume 57, Issue 4, Pages 852-860Publisher
WILEY
DOI: 10.1002/aic.12309
Keywords
biomaterials; biomedical engineering; nanotechnology; heat transfer; composite materials
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Funding
- Kentucky Science and Engineering Foundation [1169-RDE-009]
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Recently, there has been increasing interest in remote heating of polymer nanocomposites for applications such as actuators, microfluidic valves, drug delivery devices, and hyperthermia treatment of cancer. In this study, magnetic hydrogel nanocomposites of poly(ethylene glycol) (PEG) with varying amounts of iron oxide nanoparticle loadings were synthesized. The nanocomposites were remotely heated using an alternating magnetic field (AMF) at three different AMF amplitudes, and the resultant temperatures were recorded. The rate of the temperature rise and the steady state temperatures were analyzed with a heat transfer model, and a correlation of heat generation per unit mass with the nanoparticle loadings was established for different AMF amplitudes. The temperature rise data of a PEG system with different swelling properties were found to be accurately predicted by the model. Furthermore, the correlations were used to simulate the temperatures of the nanocomposite and the surrounding tissue for potential hyperthermia cancer treatment applications. (C) 2010 American Institute of Chemical Engineers AIChE J, 57: 852-860, 2011
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