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Alkyl sulfone bridged phosphorus flame-retardants for polypropylene
Nazir, R., Gooneie, A., Lehner, S., Jovic, M., Rupper, P., Ott, N., … Gaan, S. (2021). Alkyl sulfone bridged phosphorus flame-retardants for polypropylene. Materials and Design, 200, 109459 (12 pp.). https://doi.org/10.1016/j.matdes.2021.109459
Flexible phase change material fiber: a simple route to thermal energy control textiles
Yan, Y., Li, W., Zhu, R., Lin, C., & Hufenus, R. (2021). Flexible phase change material fiber: a simple route to thermal energy control textiles. Materials, 14(2), 401 (18 pp.). https://doi.org/10.3390/ma14020401
Systematic study of microplastic fiber release from 12 different polyester textiles during washing
Cai, Y., Yang, T., Mitrano, D. M., Heuberger, M., Hufenus, R., & Nowack, B. (2020). Systematic study of microplastic fiber release from 12 different polyester textiles during washing. Environmental Science and Technology, 54(8), 4847-4855. https://doi.org/10.1021/acs.est.9b07395
The origin of microplastic fiber in polyester textiles: the textile production process matters
Cai, Y., Mitrano, D. M., Heuberger, M., Hufenus, R., & Nowack, B. (2020). The origin of microplastic fiber in polyester textiles: the textile production process matters. Journal of Cleaner Production, 267, 121970 (12 pp.). https://doi.org/10.1016/j.jclepro.2020.121970
Long-term assessment of nanoplastic particle and microplastic fiber flux through a pilot wastewater treatment plant using metal-doped plastics
Frehland, S., Kaegi, R., Hufenus, R., & Mitrano, D. M. (2020). Long-term assessment of nanoplastic particle and microplastic fiber flux through a pilot wastewater treatment plant using metal-doped plastics. Water Research, 182, 115860 (9 pp.). https://doi.org/10.1016/j.watres.2020.115860
Stabilizing effects of novel phosphorus flame retardant on PET for high-temperature applications
Gooneie, A., Simonetti, P., Rupper, P., Nazir, R., Jovic, M., Gaan, S., … Hufenus, R. (2020). Stabilizing effects of novel phosphorus flame retardant on PET for high-temperature applications. Materials Letters, 276, 128225 (10 pp.). https://doi.org/10.1016/j.matlet.2020.128225
Antistatic fibers for high-visibilityworkwear: challenges of melt-spinning industrial fibers
Hufenus, R., Gooneie, A., Sebastian, T., Simonetti, P., Geiger, A., Parida, D., … Clemens, F. (2020). Antistatic fibers for high-visibilityworkwear: challenges of melt-spinning industrial fibers. Materials, 13(11), 2645 (21 pp.). https://doi.org/10.3390/ma13112645
Bicomponent fibers
Hufenus, R., Yan, Y., Dauner, M., Yao, D., & Kikutani, T. (2020). Bicomponent fibers. In J. Hu, B. Kumar, & J. Lu (Eds.), Vol. 1. Handbook of fibrous materials (pp. 281-313). https://doi.org/10.1002/9783527342587.ch11
Melt-spun fibers for textile applications
Hufenus, R., Yan, Y., Dauner, M., & Kikutani, T. (2020). Melt-spun fibers for textile applications. Materials, 13(19), 4298 (32 pp.). https://doi.org/10.3390/ma13194298
Liquid-core polymer optical fibers for luminescent waveguide applications
Jakubowski, K., Kerkemeyer, W., Perret, E., Heuberger, M., & Hufenus, R. (2020). Liquid-core polymer optical fibers for luminescent waveguide applications. Materials and Design, 196, 109131 (10 pp.). https://doi.org/10.1016/j.matdes.2020.109131
Luminescent solar concentrators based on melt-spun polymer optical fibers
Jakubowski, K., Huang, C. S., Gooneie, A., Boesel, L. F., Heuberger, M., & Hufenus, R. (2020). Luminescent solar concentrators based on melt-spun polymer optical fibers. Materials and Design, 189, 108518 (9 pp.). https://doi.org/10.1016/j.matdes.2020.108518
Melt-spun photoluminescent polymer optical fibers for solar cell enhancement
Jakubowski, K., Heuberger, M., & Hufenus, R. (2020). Melt-spun photoluminescent polymer optical fibers for solar cell enhancement. Chemical Fibers International, 69(2-3), 98-99.
Polymer-assisted in-situ thermal reduction of silver precursors: a solventless route for silver nanoparticles-polymer composites
Parida, D., Simonetti, P., Frison, R., Bülbül, E., Altenried, S., Arroyo, Y., … Gaan, S. (2020). Polymer-assisted in-situ thermal reduction of silver precursors: a solventless route for silver nanoparticles-polymer composites. Chemical Engineering Journal, 389, 123983 (12 pp.). https://doi.org/10.1016/j.cej.2019.123983
Structural response of melt-spun poly(3-hydroxybutyrate) fibers to stress and temperature
Perret, E., Reifler, F. A., Gooneie, A., Chen, K., Selli, F., & Hufenus, R. (2020). Structural response of melt-spun poly(3-hydroxybutyrate) fibers to stress and temperature. Polymer, 197, 122503 (10 pp.). https://doi.org/10.1016/j.polymer.2020.122503
X-ray data about the structural response of melt-spun poly(3-hydroxybutyrate) fibers to stress and temperature
Perret, E., Reifler, F. A., Gooneie, A., Chen, K., Selli, F., & Hufenus, R. (2020). X-ray data about the structural response of melt-spun poly(3-hydroxybutyrate) fibers to stress and temperature. Data in Brief, 31, 105675 (14 pp.). https://doi.org/10.1016/j.dib.2020.105675
Mesophase in melt-spun poly(ϵ-caprolactone) filaments: structure-mechanical property relationship
Selli, F., Erdoğan, U. H., Hufenus, R., & Perret, E. (2020). Mesophase in melt-spun poly(ϵ-caprolactone) filaments: structure-mechanical property relationship. Polymer, 206, 122870 (10 pp.). https://doi.org/10.1016/j.polymer.2020.122870
Properties, X-ray data and 2D WAXD fitting procedures of melt-spun poly(ɛ-caprolactone)
Selli, F., Gooneie, A., Erdoğan, U. H., Hufenus, R., & Perret, E. (2020). Properties, X-ray data and 2D WAXD fitting procedures of melt-spun poly(ɛ-caprolactone). Data in Brief, 32, 106223 (15 pp.). https://doi.org/10.1016/j.dib.2020.106223
Effect of pressurized CO<sub>2</sub> and N<sub>2</sub> on the rheology of PLA
Fernández-Ronco, M. P., Hufenus, R., & Heuberger, M. (2019). Effect of pressurized CO2 and N2 on the rheology of PLA. European Polymer Journal, 112, 601-609. https://doi.org/10.1016/j.eurpolymj.2018.10.023
Enhanced PET processing with organophosphorus additive: flame retardant products with added-value for recycling
Gooneie, A., Simonetti, P., Salmeia, K. A., Gaan, S., Hufenus, R., & Heuberger, M. P. (2019). Enhanced PET processing with organophosphorus additive: flame retardant products with added-value for recycling. Polymer Degradation and Stability, 160, 218-228. https://doi.org/10.1016/j.polymdegradstab.2018.12.028
Polymeric solvation shells around nanotubes: mesoscopic simulation of interfaces in nanochannels
Gooneie, A., & Hufenus, R. (2019). Polymeric solvation shells around nanotubes: mesoscopic simulation of interfaces in nanochannels. Macromolecules, 52, 8803-8813. https://doi.org/10.1021/acs.macromol.9b01657
 

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