21 to 30 of 207,026 Results
Jul 30, 2025 -
Evolutionary trends in the emergence of skeletal cell types
Plain Text - 342 B -
MD5: cb53503381874eebedde33cc879d9224
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Jul 30, 2025
Yakovlev, Vladislav; Agarwal, Manoram, 2025, "GASFIR", https://doi.org/10.17617/3.14YYJL, Edmond, V2
Data for the paper "A general approximator for strong-field ionization rates" |
Jul 30, 2025 -
GASFIR
Mathematica - 412.8 KB -
MD5: 0187c20cca0f7b689cb2b38a0e3b30b1
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Jul 30, 2025 -
GASFIR
Adobe PDF - 201.6 KB -
MD5: 436109899e2fd603231208de9faf577b
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Jul 30, 2025
Garrido, Claudia; Garske, Daniela; Bucher, Christian H.; Amini, Shahrouz; Duda, Georg N.; Schmidt-Bleek, Katharina; Cipitria, Prof. Amaia, 2025, "Anisotropic Hydrogel Degradation Enhances 3D Collective Cell Alignment, Mechanotransduction and Osteogenic Differentiation", https://doi.org/10.17617/3.WLTITB, Edmond, V1
Tissue engineering involves assembling cells and mimicking the complex anisotropic architecture of biological tissues to perform specific functions. This study explores the impact of patterned hydrogels with anisotropic degradation compared to single-phase materials on the potential of enhancing cell spreading, collective alignment, mechanotransduc... |
Jul 30, 2025 -
Anisotropic Hydrogel Degradation Enhances 3D Collective Cell Alignment, Mechanotransduction and Osteogenic Differentiation
Unknown - 148.7 KB -
MD5: b4a73a09eaca9c9a23d57838edf67da1
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Jul 30, 2025 -
Anisotropic Hydrogel Degradation Enhances 3D Collective Cell Alignment, Mechanotransduction and Osteogenic Differentiation
MS Excel Spreadsheet - 43.0 KB -
MD5: d028eadf5ce22297e125975aeb8dfd14
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Jul 30, 2025 -
Anisotropic Hydrogel Degradation Enhances 3D Collective Cell Alignment, Mechanotransduction and Osteogenic Differentiation
Unknown - 556.5 KB -
MD5: 06cc497879f8770db723725359b74cb7
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Jul 30, 2025 -
Anisotropic Hydrogel Degradation Enhances 3D Collective Cell Alignment, Mechanotransduction and Osteogenic Differentiation
Unknown - 601.3 KB -
MD5: 63388f272dc0bddeb412011af4c63a2b
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Jul 30, 2025 -
Anisotropic Hydrogel Degradation Enhances 3D Collective Cell Alignment, Mechanotransduction and Osteogenic Differentiation
Unknown - 100.9 KB -
MD5: 7dccbb98e238f6bca6950dd18f917b67
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