%0 journal article %@ 1438-1656 %A Mueller, M.,Krasnov, I.,Ogurreck, M.,Blankenburg, M.,Pazera, T.,Seydel, T. %D 2011 %J Advanced Engineering Materials %N 8 %P 767-772 %R doi:10.1002/adem.201000347 %T Wood and Silk: Hierarchically Structured Biomaterials Investigated In Situ With X-Ray and Neutron Scattering %U https://doi.org/10.1002/adem.201000347 8 %X Synchrotron radiation X-ray and neutron scattering techniques are very useful tools for the non-destructive analysis of the structure of biopolymer materials such as wood and silk, making the in situ investigation of structural changes upon mechanical stress possible. The low-divergence synchrotron radiation X-rays can be focused down to sub-micrometer size, enabling scanning studies of the wood nanostructure with (sub-)microscopic position resolution. This article highlights very recent advances in the understanding of silk and wood micro- and nanostructure, which were only possible using synchrotron radiation and neutrons. Examples include the local breakdown of cellulose fibre texture in wood cell walls, the deformation mechanism of a single wood cell, the viscoelastic properties of silk and insight into molecular mechanisms in silk upon mechanical deformation.