@misc{neffe_one_step_2015, 
author={Neffe, A.T., Pierce, B.F., Tronci, G., Ma, N., Pittermann, E., Gebauer, T., Frank, O., Schossig, M., Xu, X., Willie, B.M., Forner, M., Ellinghaus, A., Lienau, J., Duda, G.N., Lendlein, A.},
title={One Step Creation of Multifunctional 3D Architectured Hydrogels Inducing Bone Regeneration},
year={2015},
howpublished = {journal article},
doi = {https://doi.org/10.1002/adma.201404787},
abstract = {Structured hydrogels showing form stability and elastic properties individually tailorable on different length scales are accessible in a one-step process. They support cell adhesion and differentiation and display growing pore size during degradation. In vivo experiments demonstrate their efficacy in biomaterial-induced bone regeneration, not requiring addition of cells or growth factors.},
note = {Online available at: \url{https://doi.org/10.1002/adma.201404787} (DOI). Neffe, A.; Pierce, B.; Tronci, G.; Ma, N.; Pittermann, E.; Gebauer, T.; Frank, O.; Schossig, M.; Xu, X.; Willie, B.; Forner, M.; Ellinghaus, A.; Lienau, J.; Duda, G.; Lendlein, A.: One Step Creation of Multifunctional 3D Architectured Hydrogels Inducing Bone Regeneration. Advanced Materials. 2015. vol. 27, no. 10, 1738-1744. DOI: 10.1002/adma.201404787}}