By Steven W. Cranford, Markus J. Buehler (auth.)
Biomateriomics is the holistic examine of organic fabric platforms. whereas such structures are unquestionably advanced, we regularly stumble upon comparable parts -- common development blocks and hierarchical constitution motifs -- which lead to a various set of functionalities. just like the way in which track or language arises from a constrained set of track notes and phrases, we take advantage of the relationships among shape and serve as in a significant approach via spotting the similarities among Beethoven and bone, or Shakespeare and silk. during the research of fabric houses, interpreting basic hyperlinks among approaches, constructions, and houses at a number of scales and their interactions, materiomics explains procedure performance from the extent of establishing blocks.
Biomateriomics particularly focuses the research of the position of fabrics within the context of organic approaches, the move of organic fabric ideas in the direction of biomimetic and bioinspired functions, and the research of interfaces among residing and non-living structures. The demanding situations of organic fabrics are big, however the convergence of biology, arithmetic and engineering in addition to computational and experimental suggestions have ended in the toolset essential to describe complicated fabric structures, from nano to macro. making use of biomateriomics can free up Nature’s mystery to excessive functionality fabrics reminiscent of spider silk, bone, and nacre, and elucidate the development and analysis or the remedy of illnesses. equally, it contributes to advance a de novo knowing of organic fabric methods and to the opportunity of exploiting novel options in innovation, fabric synthesis and design.
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Additional resources for Biomateriomics
3 Schematic representation of materiomic information, consisting of the material constituents (elemental building blocks and/or structural units), the cross-scale structure-property-process relations (structural geometry, stress and strain transfer, failure mechanisms), and the resulting functionalities/requirements (strength, robustness, toughness, and other mechanical properties) linking processes, structure and properties at multiple scales, from nano to macro, through a materials science perspective, integrating experimental, theoretical, and computational methods.
J. Papenburg, J. A. C. Barradas, J. A. van Blitterswijk, M. Wessling, Development and analysis of multi-layer scaffolds for tissue engineering. Biomaterials 30(31), 6228–6239 (2009) 59. V. Unadkat, M. Hulsman, K. J. K. F. Post, M. T. Reinders, D. A. van Blitterswijk, J. de Boer, An algorithmbased topographical biomaterials library to instruct cell fate. Proc. Natl. Acad. Sci. USA 108(40), 16565–16570 (2011) 60. J. Hafner, C. Wolverton, G. Ceder, Toward computational materials design: the impact of density functional theory on materials research.
Ritchie, Tough, bio-inspired hybrid materials. Science 322, 1516–1520 (2008) 37. V. Vincent, Stealing ideas from nature, in Deployable Structures, ed. by S. Pellegrino (Springer, Vienna, 2001) 38. R. Lakes, Materials with structural hierarchy. Nature 361, 511–515 (1993) 39. J. C. Yung, How protein materials balance strength, robustness and adaptability. HFSP J. 4(1), 26–40 (2010) 40. A. L. A. Kastner, J. Lees, R. B. N. E. A. Lauffenburger, R. T. Hammond, M. Sur, The third revolution: the convergence of the life sciences, physical sciences, and engineering.
Biomateriomics by Steven W. Cranford, Markus J. Buehler (auth.)