1 to 10 of 55 Results
Apr 14, 2025
Kwon, Junpyo, 2025, "Beeswax Luminaires: Sustainable lighting through materials design", https://doi.org/10.17617/3.Y45QGZ, Edmond, V1
Biogenic materials like beeswax have potential for sustainable manufacturing by reducing environmental impact. This study introduces “Beeswax Luminaires”, a sustainable lighting solution made from natural beeswax and water via ice-casting. The objectives are to characterize beeswax properties, optimize luminaire design for mechanical strength and l... |
Feb 12, 2025
Reppe, Friedrich; Guiducci, Lorenzo; Elbaum, Rivka; Werner, Peter; Dunlop, John; Merritt, David J.; Fratzl, Peter; Eder, Michaela, 2025, "Material Composition Gradient Controls the Autonomous Opening of Banksia Seed Pods in Fire-prone Habitats", https://doi.org/10.17617/3.9XLTTD, Edmond, V1
tba |
Feb 7, 2025
Yadav, Nishu; Poveda, Ana; Yadiel Vázquez Mena; Rosenthal, Martin; Ogawa, Yu; Jesús Jimenéz-Barbero; Delbianco, Martina, 2025, "Source data for "Controlling glycan folding with ionic functional groups"", https://doi.org/10.17617/3.EAO4VX, Edmond, V1
Raw data for NMR and SAXS analysis |
Jan 9, 2025
Love, Celina; Steinkühler, Jan; Gonzales, David Thomas; Yandrapalli, Naresh; Robinson, Tom; Dimova, Rumina; Tang, T-Y Dora, 2025, "Reversible pH-Responsive Coacervate Formation in Lipid Vesicles Activates Dormant Enzymatic Reactions data", https://doi.org/10.17617/3.DC72LD, Edmond, V1
In situ, reversible coacervate formation within lipid vesicles represents a key step in the development of responsive synthetic cellular models. Herein, we exploit the pH responsiveness of a polycation above and below its pKa , to drive liquid-liquid phase separation, to form single coacervate droplets within lipid vesicles. The process is complete... |
Dec 9, 2024
Liu, Kaimeng; Delbianco, Martina, 2024, "Source data for "A glycan foldamer that uses carbohydrate-aromatic interactions to perform catalysis"", https://doi.org/10.17617/3.QMXNSH, Edmond, V3
In nature, the ability to catalyse reactions is primarily associated with proteins and ribozymes. Inspired by these systems, peptide-based catalysts have been designed to accelerate chemical reactions and/or ensure regio- and stereoselective transformations. We wondered whether other biomolecules (such as glycans) could be designed to perform catal... |
Dec 4, 2024
Cruz, Daniel; Żółtowska, Sonia; Savateev, Oleksandr; Antonietti, Markus; Giusto, Paolo, 2024, "Carbon nitride caught in the act of artificial photosynthesis", https://doi.org/10.17617/3.VNGMTK, Edmond, V2
Source data file |
Nov 21, 2024
Yang, Binru; Knötel, David; Ciecierska-Holmes, Jana; Wölfer, Jan; Chaumel, Júlia; Zaslansky, Paul; Baum, Daniel; Fratzl, Peter; Dean, Mason, 2024, "Growth of a tessellation: Geometric rules drive development of stingray skeletal patterns", https://doi.org/10.17617/3.IAMK5U, Edmond, V1
The skeletons of sharks and rays, fashioned from cartilage, and armored by a veneer of mineralized tiles (tesserae) present a mathematical challenge: How can the continuous covering be maintained as the skeleton expands? This study, using microCT and custom visual data analyses of growing stingray skeletons, systematically examines tessellation pat... |
Oct 7, 2024
Kullmann, Richard; Weikl, Thomas, 2023, "Force-field-based energy minimizations of cellulose crystals", https://doi.org/10.17617/3.1FPW2C, Edmond, V2
Structures and energy terms for cellulose Ibeta and II crystals composed of 52 chains of cellulose 6-mers, 8-mers, 10-mers, or 12-mers obtained from energy minimizations in two force fields. |
Sep 13, 2024
Bakhshandeh, Sadra; Heras Manterola, Unai; Taïeb, Dr. Hubert Mordehaï; Varadarajan, Adithi Ravikumar; Lissek, Susanna M.; Hücker, Sarah; Lu, Xin; Garske, Daniela; Young, Sarah A. E.; Abaurrea, Andrea; Caffarel, Maria; Riestra, Ana Cristina; Bragado Domingo, Paloma; Contzen, Jörg; Gossen, Manfred; Kirsch, Stefan; Warfsmann, Jens; Honarnejad, Kamran; Klein, Christoph A.; Cipitria, Dr. Amaia, 2024, "Dormancy-inducing 3D-engineered matrix uncovers mechanosensitive and drug protective FHL2-p21 signaling axis", https://doi.org/10.17617/3.PWPUU0, Edmond, V1
Resected tumors frequently relapse with distant metastasis, despite systemic treatment. Cellular dormancy has been identified as an important mechanism underlying such drug resistance enabling late relapse. Nonetheless, hurdles associated with detection and isolation of disseminated cancer cells (DCCs) in disease-free patients urge the need for in... |
Aug 29, 2024
Garrido, Claudia A.; Garske, Daniela S.; Thiele, Mario; Amini, Shahrouz; Real, Samik; Duda, Georg N.; Schmidt-Bleek, Katharina; Cipitria, Amaia, 2023, "Hydrogels with stiffness-degradation spatial patterns allow the emergence of anisotropic 3D cell response", https://doi.org/10.17617/3.NEHZN1, Edmond, V2
In nature, tissues are patterned, but most biomaterials used in human applications are not. Patterned biomaterials offer the opportunity to mimic spatially segregating biophysical and biochemical properties found in nature. Engineering such properties allows to study cell-matrix interactions in anisotropic matrices in great detail. Here, we develop... |
