Thermal characterization of magnetically aligned carbonyl iron/agar composites

Diaz-Bleis, D.; Vales-Pinzon, C.; Freile‐Pelegrín, Yolanda; Alvarado‐Gil, J. J.

doi:10.1016/j.carbpol.2013.07.053

Cited by 27 publications

(15 citation statements)

References 25 publications

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“…On the other hand, no essential effect on thermal conductivity and diffusivity between the random and perpendicularly distribution is noted compared to the results with the perpendicular orientation of fillers. with carbonyl iron particles (CIP) for biomedical applications [20]. Authors [12] have found for oriented in strong magnetic field (7 and 26 T) SWCNT buck paper the heightened thermal conductivity of aligned SWCNTs parallel to heat flux, the ratio of thermal conductivity of the composites directed in parallel and perpendicular to heat flux was reached about ten times.…”

Section: Thermal Conductivity and Diffusivitymentioning

confidence: 98%

Improvement of thermal and electrical properties of Silicone–Ni composites using magnetic field

Boudenne

Mamunya

Levchenko

et al. 2015

European Polymer Journal

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Section: Thermal Conductivity and Diffusivitymentioning

confidence: 98%

Improvement of thermal and electrical properties of Silicone–Ni composites using magnetic field

Boudenne

Mamunya

Levchenko

et al. 2015

European Polymer Journal

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“…His reserach interests include optoelectronic soft materials, bioinspired macromolecules, and "aqua materials", and molecular and biomolecular machines. magnets with as trength of less than 1T esla can efficiently orient such an anofiller.E xamples include particles of magnetite, [50][51][52] barium ferrite, [53][54][55] and carbonyl iron [56][57][58] as well as nickel rods [59] and magnetite-coated alumina platelets. [60] Although such weak handheld magnets are generally not enough to orient diamagnetic nanofillers,s uperconducting magnets (with as trength of several Tesla) can efficiently orient them, such as peptide nanofibers, [61][62][63] polysaccharides, [64] functionalized carbon nanotubes, [65] micelles, [66,67] lipid bilayers, [68,69] graphene oxides, [70] and inorganic nanosheets.…”

Section: Hydrogels With Oriented Nanofillersmentioning

confidence: 99%

Synthesis of Anisotropic Hydrogels and Their Applications

2018

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Owing to their water-rich structures, which are similar to those of biological tissues, hydrogels have long been regarded as promising scaffolds for artificial tissues and organs. However, in terms of the structural anisotropy, most synthetic hydrogels are substantially different from biological systems. Synthetic hydrogels are usually composed of randomly oriented three-dimensional polymer networks whereas biological systems adopt anisotropic structures with hierarchically integrated building units. Such anisotropic structures often play essential roles in biological systems to exhibit particular functions. In this context, anisotropic hydrogels provide an entry point for exploring biomimetic applications of hydrogels. Reflecting these aspects, an increasing number of studies on anisotropic hydrogels have been reported recently. This Minireview highlights the use and perspectives of these anisotropic hydrogels, particularly focusing on their preparation, structures, and applications.

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“…Вирішення цих проблем безпосередньо пов'язано з застосуванням нових матеріалів, що мають покращені технологічні і фізичні властивості. До таких матеріалів належать, зокрема, полімерні мікро-і нанокомпозити, що характеризуються комплексом властивостей, за рівнем яких вони можуть значно перевершувати традиційні матеріали [1][2][3][4][5].…”

Section: вступunclassified