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Scientific Papers

Have a look at some of our recent publications

Effect of optimized photoluminescence on luminous and passive cooling potential: A new combined experimental and numerical approach applied to yellow-emitting glass tiles

Quantum Confinement Effects in Materials for Daytime Radiative Cooling: An Ab-initio Investigation

Daytime Radiative Cooling: A Perspective toward Urban Heat Island Mitigation

Investigating the relationship between surface roughness and reflectance properties of building materials

Modelling Radiative Coolers for the Built Environment in the Urban Context

Reliability of urban microclimate simulations: spatio-temporal validation through intra-urban canyon transects for outdoor thermal comfort analysis

Harnessing the potential of radiative cooling for the built environment: A new comprehensive protocol for materials’ characterization

Coupling vanadium oxide and lead-free perovskite for sustainable passive daytime radiative cooling

On the performance of human thermal stress models in the outdoors against observations

Optimizing Perception and Efficiency: Lead-Free Perovskite Nanocrystals for Enhanced Passive Daytime Radiative Cooling in Urban Environments

Toward the Scaling up of Daytime Radiative Coolers: A Review

Bioinspired daytime radiative cooling performance: a new experimental protocol for scaling up passive cooling through the atmospheric windows

Tactical urban pocket parks (TUPPs) for subjective and objective multi-domain comfort enhancement

Numerical analysis of radiative cooling behavior: Advancing the study of materials’ potential for urban overheating mitigation

Investigations on Organic Push–Pull Dyes for Luminescent Solar Concentrator Applications

Introducing the enhanced Solar Reflectance Index (SRI*) for comprehensive evaluation of spectrally selective cool materials in real-world scenarios

Towards field implementation of photoluminescence in the built environment for passive cooling and lighting energy efficiency

Controlled combination of phosphorescent and fluorescent materials to exploit energy-saving potential in the built eviroment

Tailoring High-Entropy Oxides as Emerging Radiative Materials for Daytime Passive Cooling

Evaluating the potential of persistent luminescence in counteracting urban overheating

Exploring the potential of phosphorescence for mitigating urban overheating: First time representation in an Urban Canopy Model

Optimizing Surface Morphology for Enhanced Radiative Properties in Thermal Energy-Efficient Materials

Crowdsourced data as a strategic approach to include the human dimension in outdoor environmental quality assessments

Spectral Design of Nano-Cerates for Emerging Passive Radiative Cooling Technologies: Theory Boosts Experiments

Dynamic solutions for urban cooling: integrating thermochromism and photoluminescence in dynamic retroreflective skins for heat mitigation

DFT+U Optical Features of Thermochromic VO2: A Powerful Tool Towards Functional Daytime Radiative Passive Cooling Implementation

When attention to climate change matters: The impact of climate risk disclosure on firm market value

Numerical modelling and experimental validation of multilayer daytime radiative coolers

Environmental Assessment of an Innovative High-Performance Experimental Agriculture Field

Unlocking the cooling power of photoluminescent materials: Experimental validation of a correction procedure for effective solar reflectance measurement

Radiative cooling for Climate-Ready Buildings: A new scalable parametric simulation framework enhancing energy and comfort performance

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© Helios at University of Perugia CIRIAF – Interuniversity research centre on pollution and environment Mauro Felli
Department of Engineering Via G. Duranti 63 – 06125 – Perugia, Italy
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Funded by the European Union (ERC, HELIOS, 101041255). Views and opinions expressed are however those of the author(s) only and do not necessarily reflect those of the European Union or the European Research Council Executive Agency. Neither the European Union nor the granting authority can be held responsible for them.