By Shu Seki, Tsuneaki Sakurai, Masaaki Omichi, Akinori Saeki, Daisuke Sakamaki
This ebook positive aspects finished factors from the classical idea of high-energy particle interactions with topic to their use for a singular nanofabrication procedure for varied natural smooth fabrics. capability readers contain scientists and engineers in either academia and undefined, in addition to scholars of fabrics technology, nanotechnology, and nuclear strength engineering. Readers will find out about the ancient study history of radiation chemistry and interactions of an speeded up particle with subject, after which stream directly to contemporary examine issues having to do with nanofabrication of sentimental fabrics through the use of unmarried charged debris with excessive strength. goal fabrics of the highlighted novel procedure contain proteins, thermo-responsive and photo-responsive polymers, semiconducting polymers, or even small natural molecules. The descriptions of those a number of newly constructed nanomaterials will curiosity a wide spectrum of readers and supply them with a brand new standpoint. the various conceptual illustrations and microscopic pictures of nanomaterials which are integrated may also help readers to simply comprehend the contents of the book.
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Additional resources for High-Energy Charged Particles: Their Chemistry and Use as Versatile Tools for Nanofabrication
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The nanogel with a low cross-linking density and a high aspect ratio has poor mechanical strength; however, by adjusting the film thickness and the MBAAm content, PNIPAAm nanowires with any aspect ratio and adequate mechanical strength can be fabricated. The PNIPAAm nanowires were successfully transformed from the nonaggregated to aggregated forms over a LCST of approximately 32 °C in water. 4 AFM images of PNIPAAm nanowires treated in water at a 25 °C, b 40 °C, and c 50 °C. 0 × 108 ions cm−2 fluence).