MARC 主機 00000nam a2200553 i 4500 
001    978-4-431-55684-8 
003    DE-He213 
005    20160222140020.0 
006    m     o  d         
007    cr nn 008maaau 
008    150722s2015    ja      s         0 eng d 
020    9784431556848 (electronic bk.) 
020    9784431556831 (paper) 
024 7  10.1007/978-4-431-55684-8|2doi 
040    GP|cGP|erda|dAS 
041 0  eng 
050  4 TA418.9.N35 
082 04 620.5|223 
100 1  Seki, Shu,|eauthor 
245 10 High-energy charged particles :|btheir chemistry and use 
       as versatile tools for nanofabrication /|cby Shu Seki, 
       Tsuneaki Sakurai, Masaaki Omichi, Akinori Saeki, Daisuke 
       Sakamaki 
264  1 Tokyo :|bSpringer Japan :|bImprint: Springer,|c2015 
300    1 online resource (x, 74 pages) :|billustrations (mostly 
       color), digital ;|c24 cm 
336    text|btxt|2rdacontent 
337    computer|bc|2rdamedia 
338    online resource|bcr|2rdacarrier 
347    text file|bPDF|2rda 
490 1  SpringerBriefs in molecular science,|x2191-5407 
505 0  High Energy Charged Particle Interaction with Matters -- 
       Chemistry of High Energy Charged Particles -- A Particle 
       with High Energy: A Versatile Tool for Nanomaterials -- 
       Bio-Compatible Nanomaterials -- Stimuli-Responsive 
       Nanomaterials -- Nanomaterials for Renewable Energy -- 
       Single Particle Triggered Polymerization 
520    This book features comprehensive explanations from the 
       classical theory of high-energy particle interactions with
       matter to their use for a novel nanofabrication technique 
       for various organic soft materials. Potential readers 
       include scientists and engineers in both academia and 
       industry, as well as students of materials science, 
       nanotechnology, and nuclear power engineering. Readers 
       will learn about the historical research background of 
       radiation chemistry and interactions of an accelerated 
       particle with matter, and then move on to recent research 
       topics having to do with nanofabrication of soft materials
       by using single charged particles with high energy. Target
       materials of the highlighted novel technique include 
       proteins, thermo-responsive and photo-responsive polymers,
       semiconducting polymers, and even small organic molecules.
       The descriptions of these various newly developed 
       nanomaterials will interest a broad spectrum of readers 
       and provide them with a new perspective. The many 
       conceptual illustrations and microscopic images of 
       nanomaterials that are included will help readers to 
       easily understand the contents of the book 
650  0 Nanostructured materials|xDesign 
650  0 Nanostructured materials|xElectric properties 
650  0 Ionizing radiation 
650 14 Chemistry 
650 24 Nanochemistry 
650 24 Nuclear Engineering 
650 24 Nanotechnology 
650 24 Physical Chemistry 
700 1  Sakurai, Tsuneaki,|eauthor 
700 1  Omichi, Masaaki,|eauthor 
700 1  Saeki, Akinori,|eauthor 
700 1  Sakamaki, Daisuke,|eauthor 
710 2  SpringerLink (Online service) 
773 0  |tSpringer eBooks 
830  0 SpringerBriefs in molecular science 
856 40 |uhttp://dx.doi.org/10.1007/978-4-431-55684-8
       |zeBook(Springerlink)