Krüger, F., Thierer, R., Tahouni, Y., Sachse, R., Wood, D., Menges, A., Bischoff, M., & Rühe, J. [ca. 2021]. Development of a material design space for 4 D-printed bio-inspired hygroscopically actuated bilayer structures with unequal effective layer widths [Cd]. Freiburg: Universität. https://doi.org/10.3390/biomimetics6040058

KRÜGER, Friederike, THIERER, Rebecca, TAHOUNI, Yasaman, SACHSE, Renate, WOOD, Dylan, MENGES, Achim, BISCHOFF, Manfred und RÜHE, Jürgen, 2021. Development of a material design space for 4 D-printed bio-inspired hygroscopically actuated bilayer structures with unequal effective layer widths. Freiburg: Universität.

Krüger, F., R. Thierer, Y. Tahouni, R. Sachse, D. Wood, A. Menges, M. Bischoff, und J. Rühe. Development of a material design space for 4 D-printed bio-inspired hygroscopically actuated bilayer structures with unequal effective layer widths. cd, Universität, 2021, https://doi.org/10.3390/biomimetics6040058.

Krüger, Friederike/Thierer, Rebecca/Tahouni, Yasaman/Sachse, Renate/Wood, Dylan/Menges, Achim u. a.: Development of a material design space for 4 D-printed bio-inspired hygroscopically actuated bilayer structures with unequal effective layer widths, Freiburg 2021.

Krüger, F., Thierer, R., Tahouni, Y., Sachse, R., Wood, D., Menges, A., Bischoff, M. und Rühe, J. (2021), Development of a material design space for 4 D-printed bio-inspired hygroscopically actuated bilayer structures with unequal effective layer widths, Bd. , Universität, Freiburg, verfügbar unter:https://doi.org/10.3390/biomimetics6040058.