Oskar Paris

TL;DR: In this article, X-ray diffraction and Raman spectroscopy data were used to evaluate carbon materials produced by pyrolyzing wood at temperatures from 400 to 2400°C and various types of commercial carbon fibers.

TL;DR: In this paper, a simple structural model was proposed to describe the tendon at a hierarchical level, where fibrils and interfibrillar matrix act as coupled viscoelastic systems, and all qualitative features of the strain-rate dependence of both normal and crosslink-deficient collagen can be reproduced within this model.

TL;DR: A simple structural model is proposed, which describes the tendon at a hierarchical level, where fibrils and interfibrillar matrix act as coupled viscoelastic systems, and all qualitative features of the strain-rate dependence of both normal and cross-link-deficient collagen can be reproduced within this model.

TL;DR: The continuously forming fin bony rays of zebrafish represent a simple bone model system in which mineralization is temporally and spatially resolved and new mineral is delivered and deposited as packages of amorphous calcium phosphate nanospheres, which transform into platelets of crystalline apatite within the collagen matrix.

TL;DR: In this paper, the authors investigated the thermal degradation of wood biopolymers and evolution of the atomic/molecular and mesoscopic structure of the carbonaceous material by wideangle X-ray scattering, small-angle Xray scattering and Raman spectroscopy, and concluded that the unique microfibril orientation of cellulose in the native wood cell wall might affect the carbon composite material.