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  • (-) Empa Laboratories = 401 Biomimetic Membranes and Textiles
  • (-) Publication Year = 2006 - 2019
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Conductivity image characterization of gold nanoparticles based-device through atomic force microscopy
Lay-Ekuakille, A., Spano, F., Kapita Mvemba, P., Massaro, A., Galiano, A., Casciaro, S., & Conversano, F. (2019). Conductivity image characterization of gold nanoparticles based-device through atomic force microscopy. In H. Ponce, R. Velázquez, & Z. Wang (Eds.), 2018 Nanotechnology for Instrumentation and Measurement (NANOfIM) (p. (6 pp.). https://doi.org/10.1109/NANOFIM.2018.8688617
Horticultural packaging systems of the future: improving reefer container usage
Berry, T. M., Defraeye, T., Ambaw, A., Coetzee, C., & Opara, U. L. (2018). Horticultural packaging systems of the future: improving reefer container usage. In U. L. Opara, O. A. Fawole, A. A. Tsige, L. de Kock, E. W. Hoffman, & E. Reinten (Eds.), Acta horticulturae: Vol. 1201. VII international conference on managing quality in chains (MQUIC2017) and II international symposium on ornamentals in association with XIII international protea research symposium (pp. 221-228). https://doi.org/10.17660/ActaHortic.2018.1201.30
A method for quantifying interaction forces in wearable robots
Gcorgarakis, A. M., Stampfli, R., Wolf, P., Riener, R., & Duartc, J. E. (2018). A method for quantifying interaction forces in wearable robots. In Proceedings of the IEEE/RAS-EMBS international conference on biomedical robotics and biomechatronics. 2018 7th IEEE international conference on biomedical robotics and biomechatronics (BioRob 2018) (pp. 789-794). https://doi.org/10.1109/BIOROB.2018.8487701
Testing of hot-water and steam protective performance properties of fabrics
Mandal, S., Camenzind, M., Annaheim, S., & Rossi, R. M. (2018). Testing of hot-water and steam protective performance properties of fabrics. In P. Dolez, O. Vermeersch, & V. Izquierdo (Eds.), The textile institute book series. Advanced characterization and testing of textiles (pp. 211-235). https://doi.org/10.1016/B978-0-08-100453-1.00017-9
Integrated vegetation model for studying the cooling potential of trees in urban street canyons
Manickathan, L., Kubilay, A., Defraeye, T., Allegrini, J., Derome, D., & Carmeliet, J. (2018). Integrated vegetation model for studying the cooling potential of trees in urban street canyons (p. (6 pp.). Presented at the 7th international building physics conference, IBPC2018. .
High-performance sportswear
Rossi, R. M. (2018). High-performance sportswear. In J. McLoughlin & T. Sabir (Eds.), The textile institute book series. High-performance apparel (pp. 341-356). https://doi.org/10.1016/B978-0-08-100904-8.00017-1
Specific testing for performance sportswear
Rossi, R. M. (2018). Specific testing for performance sportswear. In P. Dolez, O. Vermeersch, & V. Izquierdo (Eds.), The textile institute book series. Advanced characterization and testing of textiles (pp. 433-448). https://doi.org/10.1016/B978-0-08-100453-1.00016-7
Individualization of thermophysiological models for thermal sensation assessment in complex environments - A preliminary study
Abou Jaoude, R., El Khoury, R., Psikuta, A., & Nemer, M. (2017). Individualization of thermophysiological models for thermal sensation assessment in complex environments - A preliminary study. In Proceedings of the ASME 2017 international mechanical engineering congress and exposition (IMECE2017): Vol. 8. Heat transfer and thermal engineering (pp. IMECE2017-71470 (10 pp.). https://doi.org/10.1115/IMECE2017-71470
Development of a polypore inspired textile non-woven for wound dressing applications
Bösiger, P. (2017). Development of a polypore inspired textile non-woven for wound dressing applications [Doctoral dissertation]. Albert-Ludwigs-Universität Freiburg.
Carbon dots and fluorescein: the ideal FRET pair for the fabrication of a precise and fully reversible ammonia sensor
Hsu, C. P., Hejazi, Z., Armagan, E., Zhao, S., Schmid, M., Zhang, H., … Toncelli, C. (2017). Carbon dots and fluorescein: the ideal FRET pair for the fabrication of a precise and fully reversible ammonia sensor. In J. P. Viricelle, C. Pijolat, & M. Rieu (Eds.), Proceedings: Vol. 1. Proceedings of Eurosensors 2017 (p. 488 (4 pp.). https://doi.org/10.3390/proceedings1040488
Validation of local thermal sensation models
Koelblen, B., Psikuta, A., Bogdan, A., Annaheim, S., & Rossi, R. M. (2017). Validation of local thermal sensation models. In Healthy buildings Europe 2017 (pp. 536-541). International Society of Indoor Air Quality and Climate (SIAQ).
Sensing system for cystic fibrosis: modeling the detection and characterization of sweat
Lay-Ekuakille, A., Griffo, G., Morello, R., De Capua, C., & Spano, F. (2017). Sensing system for cystic fibrosis: modeling the detection and characterization of sweat. In 2017 IEEE international symposium on medical measurements and applications (MeMeA) (pp. 287-291). https://doi.org/10.1109/MeMeA.2017.7985890
Evaluation of heat and flame protective performance of clothing using manikins
Mandal, S., Camenzind, M., Annaheim, S., & Rossi, R. M. (2017). Evaluation of heat and flame protective performance of clothing using manikins. In R. Nayak & R. Padhye (Eds.), The textile institute book series. Manikins for textile evaluation (pp. 199-223). https://doi.org/10.1016/B978-0-08-100909-3.00009-1
Evaluation of thermal protective performance of fabrics under a flash fire exposure – a new approach
Mandal, S., Annaheim, S., Rossi, R. M., & Camenzind, M. (2017). Evaluation of thermal protective performance of fabrics under a flash fire exposure – a new approach (p. (3 pp.). Presented at the 17th world textile conference AUTEX 2017. Textiles. Shaping the future. .
Evaluation of thermo-physiological comfort of clothing using manikins
Mandal, S., Annaheim, S., Camenzind, M., & Rossi, R. M. (2017). Evaluation of thermo-physiological comfort of clothing using manikins. In R. Nayak & R. Padhye (Eds.), The textile institute book series. Manikins for textile evaluation (pp. 115-140). https://doi.org/10.1016/B978-0-08-100909-3.00005-4
Quantitative validation of 3D garment simulation software for determination of air gap thickness in lower body garments
Mert, E., Psikuta, A., Arevalo, M., Charbonnier, C., Luible-Bär, C., Bueno, M. A., & Rossi, R. M. (2017). Quantitative validation of 3D garment simulation software for determination of air gap thickness in lower body garments. IOP conference Series: materials science and engineering: Vol. 254. (p. 162007 (5 pp.). Presented at the 17th world textile conference AUTEX 2017. Textiles. Shaping the future. https://doi.org/10.1088/1757-899X/254/16/162007
Local air gap thickness model for realistic simulation of thermal effects in clothing
Psikuta, A., Mert, E., Annaheim, S., & Rossi, R. M. (2017). Local air gap thickness model for realistic simulation of thermal effects in clothing. In Healthy buildings Europe 2017. Lublin, Poland: International Society of Indoor Air Quality and Climate (ISIAQ).
Thermo-physiological simulation
Psikuta, A., Annaheim, S., & Rossi, R. M. (2017). Thermo-physiological simulation. In R. Nayak & R. Padhye (Eds.), The textile institute book series. Manikins for textile evaluation (pp. 331-349). https://doi.org/10.1016/B978-0-08-100909-3.00015-7
Future directions in the use of manikins
Zhai, L., Rossi, R. M., & Li, J. (2017). Future directions in the use of manikins. In R. Nayak & R. Padhye (Eds.), The textile institute book series. Manikins for textile evaluation (pp. 365-386). https://doi.org/10.1016/B978-0-08-100909-3.00017-0
Thermal protective clothing for firefighters
Song, G., Mandal, S., & Rossi, R. M. (Eds.). (2017). Thermal protective clothing for firefighters. Woodhead publishing series in textiles: Vol. 189. Amsterdam: Elsevier.
 

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