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  • (-) Empa Authors ≠ Starsich, Fabian
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Guidelines for standardization of bioprinting: a systematic study of process parameters and their effect on bioprinted structures
Kesti, M., Fisch, P., Pensalfini, M., Mazza, E., & Zenobi-Wong, M. (2016). Guidelines for standardization of bioprinting: a systematic study of process parameters and their effect on bioprinted structures. BioNanoMaterials, 17(3-4), 193-204. https://doi.org/10.1515/bnm-2016-0004
Recent advances in drying at interfaces of biomaterials
Defraeye, T., Radu, A., & Derome, D. (2016). Recent advances in drying at interfaces of biomaterials. Drying Technology, 34(16), 1904-1925. https://doi.org/10.1080/07373937.2016.1144062
A review of the application of reinforced hydrogels and silk as biomaterials for intervertebral disc repair
Frauchiger, D. A., Tekari, A., Wöltje, M., Fortunato, G., Benneker, L. M., & Gantenbein, B. (2017). A review of the application of reinforced hydrogels and silk as biomaterials for intervertebral disc repair. European Cells and Materials, 34, 271-290. https://doi.org/10.22203/eCM.v034a17
The effect of superabsorbent polymers on the mitigation of plastic shrinkage cracking of conventional concrete, results of an inter-laboratory test by RILEM TC 260-RSC
Boshoff, W., Mechtcherine, V., Snoeck, D., Schröfl, C., De Belie, N., Bettencourt Ribeiro, A., … Lura, P. (2020). The effect of superabsorbent polymers on the mitigation of plastic shrinkage cracking of conventional concrete, results of an inter-laboratory test by RILEM TC 260-RSC. Materials and Structures, 53(4), 79 (16 pp.). https://doi.org/10.1617/s11527-020-01516-6
Thermoresponsive smart gating wood membranes
Ding, Y., Panzarasa, G., Stucki, S., Burgert, I., & Keplinger, T. (2022). Thermoresponsive smart gating wood membranes. ACS Sustainable Chemistry and Engineering, 10(17), 5517-5525. https://doi.org/10.1021/acssuschemeng.2c00111
Thermal-switchable, trifunctional ceramic-hydrogel nanocomposites enable full-lifecycle security in practical battery systems
Li, L., Fang, B., Ren, D., Fu, L., Zhou, Y., Yang, C., … Wu, H. (2022). Thermal-switchable, trifunctional ceramic-hydrogel nanocomposites enable full-lifecycle security in practical battery systems. ACS Nano, 16(7), 10729-10741. https://doi.org/10.1021/acsnano.2c02557
Anisotropic wood-hydrogel composites: extending mechanical properties of wood towards soft materials' applications
Koch, S. M., Goldhahn, C., Müller, F. J., Yan, W., Pilz-Allen, C., Bidan, C. M., … Burgert, I. (2023). Anisotropic wood-hydrogel composites: extending mechanical properties of wood towards soft materials' applications. Materials Today Bio, 22, 100772 (10 pp.). https://doi.org/10.1016/j.mtbio.2023.100772
Immune cell extravasation in an organ-on-chip to model lung inflammation
van Os, L., Yeoh, J., Witz, G., Ferrari, D., Krebs, P., Chandorkar, Y., … Guenat, O. T. (2023). Immune cell extravasation in an organ-on-chip to model lung inflammation. European Journal of Pharmaceutical Sciences, 187, 106485 (16 pp.). https://doi.org/10.1016/j.ejps.2023.106485
Hydrogel-assisted microfluidic wet spinning of poly(lactic acid) fibers from a green and pro-crystallization spinning dope
Wang, W., Avaro, J., Hammer, T., Hämmerle, L., Silva, B. F. B., Boesel, L. F., … Wei, K. (2024). Hydrogel-assisted microfluidic wet spinning of poly(lactic acid) fibers from a green and pro-crystallization spinning dope. Chemical Engineering Journal, 481, 148417 (16 pp.). https://doi.org/10.1016/j.cej.2023.148417
Versatile mechanically tunable hydrogels for therapeutic delivery applications
Sun, Q., Tao, S., Bovone, G., Han, G., Deshmukh, D., Tibbitt, M. W., … Fischer, P. (2024). Versatile mechanically tunable hydrogels for therapeutic delivery applications. Advanced Healthcare Materials. https://doi.org/10.1002/adhm.202304287