Publications

Ekin Sila Sahin, Tiffany Cheng, Dylan Wood, Yasaman Tahouni, Simon Poppinga, Marc Thielen, Thomas Speck, und Achim Menges. Cross-Sectional 4D-Printing: Upscaling Self-Shaping Structures with Differentiated Material Properties Inspired by the Large-Flowered Butterwort (Pinguicula grandiflora). Biomimetics, (8)22023. [PUMA: mprg myown peer] URL

Ekin Sila Sahin, Tiffany Cheng, Dylan Wood, Yasaman Tahouni, Simon Poppinga, Marc Thielen, Thomas Speck, und Achim Menges. Cross-Sectional 4D-Printing: Upscaling Self-Shaping Structures with Differentiated Material Properties Inspired by the Large-Flowered Butterwort (Pinguicula grandiflora). Biomimetics, (8)22023. [PUMA: myown mprg from:tiffanycheng peer] URL

Thomas Speck, Tiffany Cheng, Frederike Klimm, Achim Menges, Simon Poppinga, Olga Speck, Yasaman Tahouni, Falk Tauber, und Marc Thielen. Plants as inspiration for material-based sensing and actuation in soft robots and machines. MRS Bulletin, 02.02.2023. [PUMA: myown mprg from:tiffanycheng peer] URL

Tiffany Cheng, Marc Thielen, Simon Poppinga, Yasaman Tahouni, Dylan Wood, Thorsten Steinberg, Achim Menges, und Thomas Speck. Entwicklung bioinspirierter und selbstformender Orthesen per 4D-Druck. Orthopädie Technik, (74)1:40-49, 2023. [PUMA: myown mprg from:tiffanycheng peer] URL

Thomas Speck, Tiffany Cheng, Frederike Klimm, Achim Menges, Simon Poppinga, Olga Speck, Yasaman Tahouni, Falk Tauber, und Marc Thielen. Plants as inspiration for material-based sensing and actuation in soft robots and machines. MRS Bulletin, 02.02.2023. [PUMA: mprg myown peer] URL

Tiffany Cheng, Marc Thielen, Simon Poppinga, Yasaman Tahouni, Dylan Wood, Thorsten Steinberg, Achim Menges, und Thomas Speck. Entwicklung bioinspirierter und selbstformender Orthesen per 4D-Druck. Orthopädie Technik, (74)1:40-49, 2023. [PUMA: mprg myown peer] URL

Yasaman Tahouni, Tiffany Cheng, Silvia Lajewski, Johannes Benz, Christian Bonten, Dylan Wood, und Achim Menges. Codesign of Biobased Cellulose-Filled Filaments and Mesostructures for 4D Printing Humidity Responsive Smart Structures. 3D Printing and Additive Manufacturing, Mary Ann Liebert Inc, Dezember 2022. [PUMA: mprg myown peer] URL

Yasaman Tahouni, Tiffany Cheng, Silvia Lajewski, Johannes Benz, Christian Bonten, Dylan Wood, und Achim Menges. Codesign of Biobased Cellulose-Filled Filaments and Mesostructures for 4D Printing Humidity Responsive Smart Structures. 3D Printing and Additive Manufacturing, Mary Ann Liebert Inc, Dezember 2022. [PUMA: ap1 myown mprg peer from:yasamantahouni] URL

Yasaman Tahouni, Tiffany Cheng, Silvia Lajewski, Johannes Benz, Christian Bonten, Dylan Wood, und Achim Menges. Codesign of Biobased Cellulose-Filled Filaments and Mesostructures for 4D Printing Humidity Responsive Smart Structures. 3D Printing and Additive Manufacturing, Mary Ann Liebert Inc, Dezember 2022. [PUMA: P263 from:yasamantahouni mprg myown peer] URL

Yasaman Tahouni, Tiffany Cheng, Silvia Lajewski, Johannes Benz, Christian Bonten, Dylan Wood, und Achim Menges. Codesign of Biobased Cellulose-Filled Filaments and Mesostructures for 4D Printing Humidity Responsive Smart Structures. 3D Printing and Additive Manufacturing, Mary Ann Liebert Inc, Dezember 2022. [PUMA: mprg myown peer] URL