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Low-dimensional compounds are molecules that correspond to various shapes, such as rod, ladder (one-dimensional compounds), and sheet (two-dimensional compounds). They are ordinarily found in electromagnetic fields. Recently, versatile low-dimensional compounds were proposed for use as components of various functional materials. These new-class low-dimensional compounds contribute significantly to industrial/materials sciences.
The molecular architecture consisting of low-dimensional compounds can also be found in nature. One example is the cell cytoskeleton, which is a network- or
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Produktbeschreibung
Low-dimensional compounds are molecules that correspond to various shapes, such as rod, ladder (one-dimensional compounds), and sheet (two-dimensional compounds). They are ordinarily found in electromagnetic fields. Recently, versatile low-dimensional compounds were proposed for use as components of various functional materials. These new-class low-dimensional compounds contribute significantly to industrial/materials sciences.

The molecular architecture consisting of low-dimensional compounds can also be found in nature. One example is the cell cytoskeleton, which is a network- or bundle-like architecture consisting of rod-like protein assemblies. The cell accomplishes its motility by structural transition of the cytoskeleton-that is, phase transition of the architecture of low-dimensional compounds in response to some stimuli induces shape changes in cells. Another example is nacre, which is composed of layered aragonite platelets, usually a metastable CaCO3 polymorph. The layered inorganic platelets give nacre its stiffness and noncombustibility. Thus, the molecular architecture of low-dimensional compounds in natural life contributes to their functionality.

This book reviews various advanced studies on the application of low-dimensional compounds and is, therefore, important for the development of materials sciences and industrial technologies.


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Autorenporträt
Kazuhiro Shikinaka received his doctorate from Hokkaido University in 2008. He was assistant professor at the Graduate School of Engineering, Tokyo University of Agriculture and Technology, Japan, from October 2008 to March 2017. Currently, he is a senior researcher at the National Institute of Advanced Industrial Science and Technology, Japan. His research focuses on the functional materials consisting of rigid inorganic cylindrical clay minerals and the full utilization of plant biomass as basic chemical products. He is a recipient of the Award for Encouragement of Research in Clay Science (Clay Science Society of Japan, 2018), the Chemical Innovation Encouragement Prize (Japan Association for Chemical Innovation, 2016), the Award for Encouragement of Research in Polymer Science (Society of Polymer Science, Japan, 2014), the Award for Encouragement of Research in Fiber Science (Society of Fiber Science and Technology Japan, 2014), The Clay Science Society of Japan Best Presentation Award (Oral session, 2014), and the FAPS Young Scientist Poster Award (2009).