Windows
, , and . "Examination of the technical potential of near-infrared switching thermochromic windows for commercial building applications." Solar Energy Materials and Solar Cells 123 (2014) 65–80.
Google Scholar | DOI | BibTeX | Endnote tagged | RIS
, , , , , , and . "Assessment of the Potential to Achieve Very Low Energy Use in Public Buildings in China with Advanced Window and Shading Systems." Buildings 5.2 (2015) 668–699.
Google Scholar | DOI | BibTeX | Endnote tagged | RIS
, , , , , , and . Angular selective window systems: Assessment of technical potential for energy saving. 2014.
, , , , , , , , and . "U.S. energy savings potential from dynamic daylighting control glazings." Energy and Buildings 66 (2013) 415–423.
Google Scholar | DOI | BibTeX | Endnote tagged | RIS
, , and . "Empirical Assessment of a Prismatic Daylight-Redirecting Window Film in a Full-Scale Office Testbed." LEUKOS: The Journal of the Illuminating Engineering Society of North America 10.1 (2013) 19–45.
Google Scholar | DOI | BibTeX | Endnote tagged | RIS
, , , , and . "An empirical study of a full-scale polymer thermochromic window and its implications on material science development objectives." Solar Energy Materials and Solar Cells 116 (2013) 14–26.
Google Scholar | DOI | BibTeX | Endnote tagged | RIS
, and . Ventilation Behavior and Household Characteristics in New California Houses. Lawrence Berkeley National Laboratory, 2006.
, and . "Assessment of Energy Impact of Window Technologies for Commercial Buildings." 2010 ACEEE Summer Study. 2010.
, and . "The Calculation of Natural Ventilation and Comfort." ASHRAE Transactions 90.1B (1984).
, , and . Windows for Accepting or Rejecting Solar Heat Gain: Final Report. 1982.