Funktionelle Morphologie und Anatomie
Publikationen:
Kempe, A., Lautenschläger T., Lange A., Neinhuis C. (2014): How to become a tree without wood - biomechanical analysis of the stem of Carica papaya L. In: Plant Biology, 16: 264-271.
Kempe, A., Lautenschläger T., Neinhuis C. (2014): Reorientation in tilted stems of papaya by differential growth. In: International Journal of Plant Sciences, 175(5): 537-543.
Kempe, A.; Göhre, A.; Lautenschläger, T.; Rudolf, A.; Eder, M; Neinhuis, C. (2015): Evaluation of Bast Fibres of the Stem of Carica papaya L. for Application as Reinforcing Material in Green Composites. In: Annual Research & Review in Biology 6(4): 245-252, 2015.
Lautenschläger, T.; Kempe, A.; Neinhuis, C., Wagenführ, A.; Siwek, S. (2016): Not Only Delicious: Papaya Bast Fibres In Biocomposites. In: Bioresources 11(3): 6582-6589.
Senwitz, C.; Kempe, A.; Neinhuis, C., Mandombe, J.L.; Branquima, M.F.; Lautenschläger, T.; (2016): Almost Forgotten Resources – Biomechanical Properties Of Traditionally Used Bast Fibers From Northern Angola. In: Bioresources 11(3): 7595-7607.
Oktaee, J., Lautenschläger, T., Günther, M., Neinhuis, C., Wagenführ, A., Lindner, M., and Winkler, A. (2017). "Characterization of willow bast fibers (Salix spp.) from short-rotation plantation as potential reinforcement for polymer composites," BioRes. 12(2), 4270-4282.
Kempe, A.; Neinhuis, C.; Lautenschläger, T. (2018): Adansonia digitata and Adansonia gregorii fruit shells serve as a protection against high temperatures experienced during wildfires. In: Bot Stud (2018) 59:7.
Grosser, P., Siegel, C., Neinhuis, C., Lautenschläger, T. (2018): Triumfetta cordifolia: A Valuable (African) Source for Biocomposites. BioResources 13(4), 7671--7682.
Lautenschläger, T., Kempe, A., Bunk, K., Mawunu, M., and Neinhuis, C. (2019). Biomechanics and traditional use of Raphia matombe rachis in northern Angola. In: BioRes. 14(2): 3364-3378.
Sacher, M., Lautenschläger, T., Kempe, A., & Neinhuis, C. (2019). Umbrella leaves–Biomechanics of transition zone from lamina to petiole of peltate leaves. Bioinspiration & biomimetics 14(4): 046011.
Lautenschläger, T., Rüggeberg, M., Noack, N., Bunk, K., Mawunu, M., Speck, T., & Neinhuis, C. (2020). Functional principles of baobab fruit pedicels–anatomy and biomechanics. Annals of Botany.
Wunnenberg, J., Rjosk, A., Neinhuis, C., Lautenschläger, T. (2021). Strengthening Structures in the Petiole–Lamina Junction of Peltate Leaves. Biomimetics 6(2): 25.
Rjosk, A., Neinhuis, C., Lautenschläger, T. (2022). Anatomy and Biomechanics of Peltate Begonia Leaves—Comparative Case Studies. Plants 11: 3297.
Macek, D., Holthusen, H., Rjosk, A., Ritzert, S., Lautenschläger, T., Neinhuis, C., Simon, J. W., Reese, S. (2023). Mechanical investigations of the peltate leaf of Stephania japonica (Menispermaceae): experiments and a continuum mechanical material model. Frontiers in Plant Science: 4139.
Heyder, K., Neinhuis, C., Lautenschläger, T. (2023). Morphology, anatomy and sleep movements of Ludwigia sedoides. The Science of Nature 110: 18.
Platen, J., Pauls, B., Rjosk, A., Lautenschläger, T., Neinhuis, C., & Kaliske, M. (2023). Modeling Growth of Plants for Biologically Inspired Structures of Carbon Fiber Reinforced Concrete. Building for the Future: Durable, Sustainable, Resilient: Proceedings of the fib Symposium 2023 2: 1262-1272. Cham: Springer Nature Switzerland.
Macek, D., Rjosk, A., Ritzert, S., Lautenschläger, T., Neinhuis, C., & Reese, S. (2023). Numerical Simulations of the Mechanical Behavior of Plant Tissues as an Inspiration for Carbon Reinforced Concrete Structures. Building for the Future: Durable, Sustainable, Resilient: Proceedings of the fib Symposium 2023 2: 1408-1417. Cham: Springer Nature Switzerland.
Pauls, B., Lautenschläger, T., Neinhuis, C. (2023). Anatomical and Biomechanical Properties of the Junction between Stem and Aerial Roots of Selenicereus undatus. Plants 12: 2544.
Macek, D., Holthusen, H., Rjosk, A., Ritzert, S., Lautenschläger, T., Neinhuis, C., J.-W. Simon & Reese, S. (2023). A constitutive model for modeling the mechanical behavior of the peltate leaf of Stephania japonica(Menispermaceae). PAMM, e202200288.
Platen, J., Pauls, B., Anantheswar, A., Lautenschläger, T., Neinhuis, C., & Kaliske, M. (2024). A nonlinear finite viscoelastic formulation relative to the viscous intermediate configuration applied to plants. International Journal for Numerical Methods in Engineering, e7483.
Curbach, M., Hegger, J., Bielak, J., Schmidt, C., Bosbach, S., Scheerer, S., ... & Traverso, M. (2024). New perspectives on carbon reinforced concrete structures‐Why new composites need new design strategies. Civil Engineering Design: 5(5-6), 67-94.