Projektleitung | Datenschutzbeauftragter
Tamás Haraszti
Soft Matter-Physik, Hydrogele
Publications
| Titel/Autoren | DOI-LINK | Magazine | Jahre | |
|---|---|---|---|---|
|
Annealing High Aspect Ratio Microgels into Macroporous 3D Scaffolds Allows for Higher Porosities and Effective Cell Migration
A. C. Suturin, A. J. D. Krüger, K. Neidig, N. Klos, N. Dolfen, M. Bund, T. Gronemann, R. Sebers, A. Manukanc, G. Yazdani, Y. Kittel, D. Rommel, T. Haraszti, J. Köhler and L. De Laporte
|
https://doi.org/10.1002/adhm.202200989 | Advanced Healthcare Materials | 2022 | |
|
Brush-Like Interface on Surface-Attached Hydrogels Repels Proteins and Bacteria
L. Witzdam, Y. L. Meurer, M. Garay-Sarmiento, M. Vorobii, D. Söder, J. Quandt, T. Haraszti and C. Rodriguez-Emmenegger
|
https://doi.org/10.1002/mabi.202200025 | Macromolecular Bioscience | 2022 | |
|
Cells Feel the Beat – Temporal Effect of Cyclic Mechanical Actuation on Muscle Cells
Y. Chandorkar, C. Bastard, J. Di Russo, T. Haraszti and L. De Laporte
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https://doi.org/10.1016/j.apmt.2022.101492 | Applied Materials Today | 2022 | |
|
Dendrimersome Synthetic Cells Harbor Cell Division Machinery of Bacteria
A. M. Wagner, H. Eto, A. Joseph, S. Kohyama, T. Haraszti, R. A. Zamora, M. Vorobii, M. I. Giannotti, P. Schwille and C. Rodriguez-Emmenegger
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https://doi.org/10.1002/adma.202202364 | Advanced Materials | 2022 | |
|
Dendrimersome Synthetic Cells Harbor Cell Division Machinery of Bacteria
A. M. Wagner, H. Eto, A. Joseph, S. Kohyama, T. Haraszti, R. A. Zamora, M. Vorobii, M. I. Giannotti, P. Schwille and C. Rodriguez-Emmenegger
|
https://doi.org/10.1002/adma.202202364 | Advanced Materials | 2022 | |
|
Fibronectin Anchoring to Viscoelastic Poly(Dimethylsiloxane) Elastomers Controls Fibroblast Mechanosensing and Directional Motility
D. Missirlis, L. Heckmann, T. Haraszti and J. P. Spatz
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https://doi.org/10.1016/j.biomaterials.2022.121646 | Biomaterials | 2022 | |
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Fibronectin Anchoring to Viscoelastic Poly(Dimethylsiloxane) Elastomers Controls Fibroblast Mechanosensing and Directional Motility
D. Missirlis, L. Heckmann, T. Haraszti and J. P. Spatz
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https://doi.org/10.1016/j.biomaterials.2022.121646 | Biomaterials | 2022 | |
|
Functionalized Microgel Rods Interlinked into Soft Macroporous Structures for 3D Cell Culture
D. Rommel, M. Mork, S. Vedaraman, C. Bastard, L. P. B. Guerzoni, Y. Kittel, R. Vinokur, N. Born, T. Haraszti and L. De Laporte
|
https://doi.org/10.1002/advs.202103554 | Advanced Science | 2022 | |
|
How do the Local Physical, Biochemical, and Mechanical Properties of an Injectable Synthetic Anisotropic Hydrogel Affect Oriented Nerve Growth?
S. Babu, I. Chen, S. Vedaraman, J. Gerardo-Nava, C. Licht, Y. Kittel, T. Haraszti, J. Di Russo and L. De Laporte
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https://doi.org/10.1002/adfm.202202468 | Advanced Functional Materials | 2022 | |
|
Ionic Combisomes: A New Class of Biomimetic Vesicles to Fuse with Life
A. M. Wagner, J. Quandt, D. Söder, M. Garay-Sarmiento, A. Joseph, V. S. Petrovskii, L. Witzdam, T. Hammoor, P. Steitz, T. Haraszti, I. I. Potemkin, N. Y. Kostina, A. Herrmann and C. Rodriguez-Emmenegger
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https://doi.org/10.1002/advs.202200617 | Advanced Science | 2022 | |
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Pre-Programmed Rod-Shaped Microgels to Create Multi-Directional Anisogels for 3d Tissue Engineering
D. L. Braunmiller, S. Babu, D. B. Gehlen, M. Seuß, T. Haraszti, A. Falkenstein, J. Eigen, L. De Laporte and J. J. Crassous
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https://doi.org/10.1002/adfm.202202430 | Advanced Functional Materials | 2022 | |
|
Zwitterionic Dendrimersomes: A Closer Xenobiotic Mimic of Cell Membranes
A. Joseph, A. M. Wagner, M. Garay-Sarmiento, M. Aleksanyan, T. Haraszti, D. Söder, V. N. Georgiev, R. Dimova, V. Percec and C. Rodriguez-Emmenegger
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https://doi.org/10.1002/adma.202206288 | Advanced Materials | 2022 |