the new generation of scalable urban HEat isLand mitigatIOn by means of adaptive photoluminescent radiative cooling Skins

HORIZON.1.1HORIZON-ERCID: 101041255
EC Contribution
€14,981
Consortium Size
1 orgs
Summary

From their early origins urbanization has produced both benefits and penalties due to the generated anthropogenic stress. Documented overheating such as urban heat island (UHI) compromises human wellbeing in cities, where 60% of the world population lives and is exposed to the related health risks and vulnerability. An urgent solution is much needed here and now, since classic passive cooling techniques showed to slowly mitigate UHI. A disruptive improvement must be dedicated to eradicate the problem by conducting a ground-breaking multidimensional and multidisciplinary research. That is the key motivation of HELIOS, which aims at holistically developing the resilient urban skin of the future. This skin will take advantage of the combination of successful radiative cooling in the atmospheric window(8-13μm) and high solar reflectance integrated for the first time to photoluminescence in the short wave(0.25-2.8μm) thanks to the breakthrough lead-free halide perovskites. HELIOS will develop novel radiative cooling structures into temperature responsive carriers (eg phase change-oxides, thermonastic shape-memory alloys) and albedo adaptive photoluminescent finishing, with the twofold purpose to tailor radiative supercooling performance enough to minimize winter penalties and to give the desired colour finishing, finally allowing the sustainable upscaling of this research frontier. This approach would radically change the building physics paradigm, with the ambition of rethinking built environment into a fully-dynamic resilience, as only Nature can do. HELIOS will indeed analytically and experimentally identify the thermal-radiative physics of such skin, assessing its performance for indoor-outdoor human comfort and energy-efficiency. HELIOS bio-inspired radiative and photoluminescent skin will be indeed tailored and optimized for each dynamic boundary, as demonstrated through a disruptive building physics experimentally-validated balance and urban canopy model worldwide.

Consortium (1)

Project Results (20)

Source: CORDIS, the EU research results database.

Publications (19)
Tactical urban pocket parks (TUPPs) for subjective and objective multi-domain comfort enhancement
Journal of Environmental Management· 2025DOI
Federica Rosso, Benedetta Pioppi, Anna Laura Pisello
Evaluating the potential of persistent luminescence in counteracting urban overheating
Journal of Physics: Conference Series· 2024DOI
Chiara Chiatti, Claudia Fabiani, Elie Bou-Zeid, Anna Laura Pisello
Exploring the potential of phosphorescence for mitigating urban overheating: First time representation in an Urban Canopy Model
Applied Energy· 2024DOI
Chiara Chiatti, Claudia Fabiani, Xinjie Huang, Elie Bou-Zeid, Anna Laura Pisello
Harnessing the potential of radiative cooling for the built environment: A new comprehensive protocol for materials’ characterization
Solar Energy Materials and Solar Cells· 2024DOI
Chiara Chiatti, Francesco Marchini, Claudia Fabiani, Ioannis Kousis, Laura Carlosena, Anna Laura Pisello
Investigating the relationship between surface roughness and reflectance properties of building materials
Journal of Physics: Conference Series· 2024DOI
Francesco Marchini, Chiara Chiatti, Claudia Fabiani, Loredana Latterini, Anna Laura Pisello
Optimising surface morphology for enhanced radiative properties in thermal energy-efficient materials
Materials Today Energy· 2024DOI
Francesco Marchini, Claudia Fabiani, Loredana Latterini, Anna Laura Pisello
Optimizing retro-reflective surfaces to untrap radiation and cool cities
Nature Cities· 2024DOI
Xinjie Huang , Elie Bou-Zeid, Ilaria Pigliautile , Anna Laura Pisello, Jyotirmoy Mandal
Reliability of urban microclimate simulations: spatio-temporal validation through intra-urban canyon transects for outdoor thermal comfort analysis
International Journal of Biometeorology· 2024DOI
De Quadros, B. M.; Pigliautile, I.; Pisello, A. L.; Krüger, E.; Mizgier, M. O.
Spectral Design of Nano-Cerates for Emerging Passive Radiative Cooling Technologies: Theory Boosts Experiments
Nano Letters· 2024DOI
Costanza Borghesi, Roberto Bondi, Francesco Marchini, Claudia Fabiani, Loredana Latterini, Ivano Eligio Castelli, Anna Laura Pisello, Giacomo Giorgi
Controlled combination of phosphorescent and fluorescent materials to exploit energy-saving potential in the built environment
Energy· 2023DOI
Chiara Chiatti, Claudia Fabiani, Roberto Bondi, Giulia Zampini, Loredana Latterini, Anna Laura Pisello
Daytime Radiative Cooling: A Perspective toward Urban Heat Island Mitigation
ACS Energy Letters· 2023DOI
Ioannis Kousis; Roberto D’Amato; Anna Laura Pisello; Loredana Latterini
Georeferenced fix and mobile environmental data to assess microclimate change in complex urban areas toward resilient planning
IC2UHI2023, 6th International Conference on Countermeasures to Urban Heat Island· 2023
R. Cureau, C. Balocco, F. Cotana, C. Fabiani, I. Pigliautile, C. Piselli, A.L. Pisello, S. Ronchi, S. Salata
Modelling Radiative Coolers for the Built Environment in the Urban Context
Advanced Sustainable Systems· 2023DOI
Ioannis Kousis; Alberto Martilli; Anna Laura Pisello
Tailoring High-Entropy Oxides as Emerging Radiative Materials for Daytime Passive Cooling
Chemistry of Materials· 2023DOI
Costanza Borghesi, Claudia Fabiani, Roberto Bondi, Loredana Latterini, Ivano E. Castelli, Anna Laura Pisello, Giacomo Giorgi
Toward the Scaling up of Daytime Radiative Coolers: A Review
Advanced Optical Materials· 2023DOI
Ioannis Kousis, Anna Laura Pisello
A novel methodology for human thermal comfort decoding via physiological signals measurement and analysis
Building and Environment· 2022DOI
Silvia Angela Mansi, Ilaria Pigliautile, Marco Arnesano, Anna Laura Pisello
Effect of optimized photoluminescence on luminous and passive cooling potential: A new combined experimental and numerical approach applied to yellow-emitting glass tiles
Renewable Energy· 2022DOI
Chiara Chiatti, Ioannis Kousis, Claudia Fabiani, Anna Laura Pisello,
Environmental Assessment of an Innovative High-Performance Experimental Agriculture Field
Sustainability· 2022DOI
Fabiana Frota de Albuquerque Landi; Claudia Fabiani; Anna Laura Pisello; Alessandro Petrozzi; Daniele Milone; Franco Cotana
Towards field implementation of photoluminescence in the built environment for passive cooling and lighting energy efficiency
Applied Energy· 2022DOI
Claudia Fabiani; Marta Gambucci; Chiara Chiatti; Giulia Zampini; Loredana Latterini; Anna Laura Pisello
Other Results (1)
Periodic Reporting for period 1 - HELIOS (the new generation of scalable urban HEat isLand mitigatIOn by means of adaptive photoluminescent radiative cooling Skins)