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Beilstein J. Nanotechnol. 2015, 6, 134–148, doi:10.3762/bjnano.6.13
Figure 1: Magnetite formation inside a gelatin gel matrix (grey) that is placed inside the chitin scaffold of...
Figure 2: SANS macroscopic cross-section dΣ/dΩ versus scattering vector Q for a 1 mm thick piece of nacre in ...
Figure 3: Light microscopy image of thin cuts of embedded and Coomassie stained samples. a) Demineralized nac...
Figure 4: SEM micrographs of a) and b) fracture surfaces of artificial nacre and c) fracture surface of origi...
Figure 5: TEM micrographs of a) artificial nacre after one reaction cycle and b) after four reaction cycles, ...
Figure 6: SANS and VSANS scattering patterns of magnetite in gelatin–chitin composite and of ferrogel in a mi...
Figure 7: Magnetic properties of the synthesized hybrid materials. a) Magnetization curves of a representativ...
Figure 8: Degree of sample swelling plotted as a function of the swelling time at 23 °C for different samples...
Figure 9: Representative structure of a triple helical (Gly–Hyp–Pro)n peptide [44] of 100 Å length with two assoc...
Figure 10: Illustration of a β-chitin model [45] consisting of three poly-(1,4)-D-glucose chains of nine monomers ...
Figure 11: a) Representative structure for the coordination of FeIII(OH)3 by chitin. The ferric ion (light blu...
Figure 12: Force vs deformation characteristic of pure gelatin and gelatin with ferromagnetic particles. Intro...
Figure 13: Force vs deformation characteristics of the chitin scaffold and the final composite. Introduction o...