BTUS Cool Roofs and Walls
Pilot-scale NOx removal efficacy of photocatalytic roofing granules under urban environmental conditions." Solar Energy Materials and Solar Cells 247 (2022).
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Targeting buildings for energy-saving cool-wall retrofits: a case study at the University of California, Davis." Energy and Buildings 249 (2021) 111014.
, , , and . "Passive cooling designs to improve heat resilience of homes in underserved and vulnerable communities." Energy and Buildings 252 (2021) 111383.
, , , , , and . "Self-cleaning and de-pollution efficacies of photocatalytic architectural membranes." Applied Catalysis B: Environmental (2021).
, , , , , , , , , and . "De-pollution efficacy of photocatalytic roofing granules." Building and Environment 160 (2019).
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Are Cooler Surfaces a Cost-Effect Mitigation of Urban Heat Islands?." Urban Climate (2017).
. "A Simple Tool for Estimating City-Wide Annual Electrical Energy Savings from Cooler Surfaces." Urban Climate 14.2 (2015) 315–325.
, , and . "Thermal performance and energy savings of white and sedum-tray garden roof: A case study in a Chongqing office building." Energy and Buildings 156 (2017) 343–359.
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Soiling of building envelope surfaces and its effect on solar reflectance – Part III: Interlaboratory study of an accelerated aging method for roofing materials." Solar Energy Materials and Solar Cells 143 (2015) 581–590.
, , , , , , , , , , , , , , , , , , , , , , , , , , and . "Fluorescent Cooling of Objects Exposted to Sunlight - The Ruby Example." Solar Energy Materials and Solar Cells 157 (2016) 312–317.
, , , , , and . "Measured temperature reductions and energy savings from a cool tile roof on a central California home." Energy and Buildings 80 (2014).
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