PSI - Issue 67

Jorge S. Dolado et al. / Procedia Structural Integrity 67 (2025) 23–29 Jorge S. Dolado/ Structural Integrity Procedia 00 (2024) 000–000

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Dolado J. S., Goracci G., Arrese-Igor S., Ayuela A., Torres A., Liberal I., Beruete M., Gaitero J. J., Cagnoni M., Cappelluti F. “Radiative cooling properties of Portlandite and Tobermorite: two cementitious minerals of great relevance in concrete science and technology”, ACS Appl. Opt. Mater. 2023, https://doi.org/10.1021/acsaom.3c00082. Ghosh S., Harish S., Ohtaki M., Saha, B.B. “Enhanced figure of merit of cement composites with graphene and ZnO nanoinclusions for efficient energy harvesting in buildings”, Energy 198,117396 Hoivik, N.; Greiner, C.; Barragan, J.; Iniesta, A.C.; Skeie, G. (2019) “Long-term performance results of concrete-based modular thermal energy storage system”. Energy Storage 74: 100735 Kousis I. and Pisello A. L. (2020) “For the mitigation of urban heat island and urban noise island: two simultaneous sides of urban discomfort” Environ. Res. Lett. 15 103004 Laing, D.; Steinmann, W.-D.; Tamme, R.; Richter, C. (2006) “Solid media thermal storage for parabolic trough power plants”. Sol. Energy 80: 1283–1289 Levinson, R.; Akbari, H. (2002) “Effects of composition and exposure on the solar reflectance of Portland cement concrete”. Cement and Concrete Research 32: 1679–1698 Liu X., Qu M., Nguyen A.P.T., Dilley N.R., Yazawa, K. (2021) “Characteristics of new cement-based thermoelectric composites for low temperature applications” Constr. Build. Mater. 304 124635. Lu G.; She W.; Tong X.; Zuo W.; Zhang Y. (2021) “Radiative cooling potential of cementitious composites: Physical and chemical origins”. Cement and Concrete Composites 119: 104004 (11) Martauz, P.; Janotka, I.; Strigác, J.; Bacuvcík, (2016) M. “Fundamental properties of industrial hybrid cement: Utilization in ready-mixed concretes and shrinkage-reducing applications”. Materiales de Construcción 66: 322 Meng Q and Chung D.D.L (2010) “Battery in the form of a cement-matrix composite”; Cement & Concrete Composites 32: 829–839 Monasterio M., Jansson H., Gaitero J. J., Dolado J.S. Cerveny S. (2013) “Cause of the fragile-to-strong transition observed in water confined in C-S-H gel”, The Journal of Chemical Physics 139, 164714. Pérez-Escudero J. M., Torres-García A. E., Lezaun C., Caggiano A., Ignacio Peralta, Dolado J. S., Beruete M., Liberal I. (2023) “Suppressed scattering spectral windows for radiative cooling applications” Optics Express 31 (4): 6314-6326 Qu B., Martín A., Pastor J. Y., Palomo A., Fernández Jiménez A. (2020) “Microstructural characterisation of hybrid cement after exposure to high temperatures”. Construction and Building Materials 262: 120843 Rahjoo, M.; Goracci, G.; Martauz, P.; Rojas, E.; Dolado, J.S. (2022) “Geopolymer Concrete Performance Study for High-Temperature Thermal Energy Storage (TES) Applications”. Sustainability 14: 1937 Rahjoo, M.; Goracci, G.; Gaitero, J.J.; Martauz, P.; Rojas, E.; Dolado, J.S. (2022) Thermal Energy Storage (TES) Prototype Based on Geopolymer Concrete for High-Temperature Applications. Materials 15: 7086 Rahjoo, M.; Goracci, G.; Gaitero, J.J.; Martauz, P.; Rojas, E.; Dolado, J.S. (2023) Under review Wen S., Chung D.D.L (1999) “Seebeck effect in carbon fiber-reinforced cement”. Cement and Concrete Research 29, 1989–1993 Zhang E. Q. and Tang L. (2021) “Rechargeable concrete battery” Buildings 2021, 11, 103