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A self-assembled, multicomponent water oxidation device
Tóth, R., Walliser, R. M., Murray, N. S., Bora, D. K., Braun, A., Fortunato, G., … Constable, E. C. (2016). A self-assembled, multicomponent water oxidation device. Chemical Communications, 52(14), 2940-2943. https://doi.org/10.1039/c5cc09556e
A facile nonpolar organic solution process of a nanostructured hematite photoanode with high efficiency and stability for water splitting
Wang, J. J., Hu, Y., Toth, R., Fortunato, G., & Braun, A. (2016). A facile nonpolar organic solution process of a nanostructured hematite photoanode with high efficiency and stability for water splitting. Journal of Materials Chemistry A, 4(8), 2821-2825. https://doi.org/10.1039/C5TA06439B
Development of PET fibers for photocatalytic degradation of organic molecules
Fortunato, G., Tenniche, A., Gottardo, L., Reifler, F. A., Michalow, K., & Hufenus, R. (2012). Development of PET fibers for photocatalytic degradation of organic molecules. In R. Hufenus & R. Rossi (Eds.), The Fiber Society 2012 spring conference. Fiber research for tomorrow's applications. St. Gallen, Switzerland: Empa; The Fiber Society.
Textile pressure sensor made of flexible plastic optical fibers
Rothmaier, M., Luong, M. P., & Clemens, F. (2008). Textile pressure sensor made of flexible plastic optical fibers. Sensors, 8(7), 4318-4329. https://doi.org/10.3390/s8074318
Flame synthesis of TiO<SUB>2</SUB> nanoparticles with high photocatalytic activity
Akurati, K. K., Vital, A., Fortunato, G., Hany, R., Nueesch, F., & Graule, T. (2007). Flame synthesis of TiO2 nanoparticles with high photocatalytic activity. Solid State Sciences, 9(3-4), 247-257. https://doi.org/10.1016/j.solidstatesciences.2006.12.004