Add to ORKGAward for Runner-Up Poster Presentation . Abstract Minnesota is home to some of the greatest temperature ranges in the United States, with lows reaching below -40º Celsius and highs reaching nearly 40ºC. This results in higher than average spending on the heating and cooling of buildings. We have been investigating into responsive building materials to help address this. In particular, we have been studying a thermochromic paint that can capture solar energy and transfer it into the building as heat at low temperatures and reflect the energy at higher temperatures to keep the building cooler
Thermochromic (TC) glazing could provide a significant reduction of energy consumption in curtain wa...
Thermochromic (TC) windows were developed as a passive building component to improve indoor comfort ...
Over the last few years, new materials have been developed which a priori, appear to improve passive...
Cool coatings show high solar reflectance and have been proposed to decrease the building energy dem...
Cool coatings show high solar reflectance and thermal emittance and have proved to decrease the ener...
Thermochromic (TC) materials are characterized by a change of their optical response at a specific t...
Thermochromic (TC) materials can switch solar absorptance (α) based on temperature stimuli. When coa...
Coatings are a large and significant field of application for nanotechnology /1/ - /67/. Particularl...
Thermochromic window technologies promise energy-saving capabilities through intelligent regulation ...
Available online 5 January 2021Thermochromic window technologies promise energy-saving capabilities ...
Glass windows are integral to almost any building design, letting in natural light and offering view...
Recent simulation studies conclude that the use of thermochromic (TC) materials at facade coatings h...
Modern buildings normally have large windows and glass facades, known jointly as glazings, for achie...
Due to increasing pressure to reduce the energy demand in buildings, thermochromic thin film based g...
Glazing based on thermochromic thin films has been noted to potentially reduce the energy demand in ...
Thermochromic (TC) glazing could provide a significant reduction of energy consumption in curtain wa...
Thermochromic (TC) windows were developed as a passive building component to improve indoor comfort ...
Over the last few years, new materials have been developed which a priori, appear to improve passive...
Cool coatings show high solar reflectance and have been proposed to decrease the building energy dem...
Cool coatings show high solar reflectance and thermal emittance and have proved to decrease the ener...
Thermochromic (TC) materials are characterized by a change of their optical response at a specific t...
Thermochromic (TC) materials can switch solar absorptance (α) based on temperature stimuli. When coa...
Coatings are a large and significant field of application for nanotechnology /1/ - /67/. Particularl...
Thermochromic window technologies promise energy-saving capabilities through intelligent regulation ...
Available online 5 January 2021Thermochromic window technologies promise energy-saving capabilities ...
Glass windows are integral to almost any building design, letting in natural light and offering view...
Recent simulation studies conclude that the use of thermochromic (TC) materials at facade coatings h...
Modern buildings normally have large windows and glass facades, known jointly as glazings, for achie...
Due to increasing pressure to reduce the energy demand in buildings, thermochromic thin film based g...
Glazing based on thermochromic thin films has been noted to potentially reduce the energy demand in ...
Thermochromic (TC) glazing could provide a significant reduction of energy consumption in curtain wa...
Thermochromic (TC) windows were developed as a passive building component to improve indoor comfort ...
Over the last few years, new materials have been developed which a priori, appear to improve passive...