SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2016475193> ?p ?o ?g. }

Showing items 1 to 100 of ±166 with 100 items per page.

W2016475193 abstract "Modern buildings often have large windows and glass facades in order to achieve good day-lighting and desirable indoors–outdoors contact. These glazings are challenging with regard to the buildings' energy efficiency and frequently let in or out too much energy; this phenomenon has to be balanced by energy guzzling cooling or heating. In particular, the cooling requirement has grown strongly in recent years. Chromogenic glazings, based on thermochromism or electrochromism, are emerging technologies that can regulate the inflow of visible light and solar energy between widely separated limits and create better energy efficiency than is possible with static solutions. Thermochromic thin films—in practice based on vanadium dioxide—have a transmittance of infrared solar radiation that is smaller at high temperature than at low temperature. Electrochromic multilayer structures—often incorporating nanoporous thin films of tungsten oxide and nickel oxide—are able to vary the transmittance of visible light and solar energy when a low voltage is applied for a short time so as to shuttle charge between the two oxide films. Furthermore, and importantly, the new chromogenic fenestration technologies are able to improve indoor comfort. This brief tutorial review surveys the fields of oxide-based thermochromics and electrochromics with particular attention to recent advances." @default.
W2016475193 created "2016-06-24" @default.
W2016475193 creator A5032073645 @default.
W2016475193 date "2014-09-24" @default.
W2016475193 modified "2023-10-05" @default.
W2016475193 title "Oxide-based chromogenic coatings and devices for energy efficient fenestration: Brief survey and update on thermochromics and electrochromics" @default.
W2016475193 cites W1626739009 @default.
W2016475193 cites W1966538650 @default.
W2016475193 cites W1969693710 @default.
W2016475193 cites W1973315818 @default.
W2016475193 cites W1973479742 @default.
W2016475193 cites W1974026484 @default.
W2016475193 cites W1975226748 @default.
W2016475193 cites W1975600901 @default.
W2016475193 cites W1976550917 @default.
W2016475193 cites W1985036615 @default.
W2016475193 cites W1988489621 @default.
W2016475193 cites W1989624331 @default.
W2016475193 cites W1990763999 @default.
W2016475193 cites W1991237743 @default.
W2016475193 cites W1991525455 @default.
W2016475193 cites W1991734649 @default.
W2016475193 cites W1995953031 @default.
W2016475193 cites W1997483644 @default.
W2016475193 cites W2000854603 @default.
W2016475193 cites W2002233385 @default.
W2016475193 cites W2003140768 @default.
W2016475193 cites W2003568768 @default.
W2016475193 cites W2006092128 @default.
W2016475193 cites W2013041084 @default.
W2016475193 cites W2013108764 @default.
W2016475193 cites W2017048938 @default.
W2016475193 cites W2020759041 @default.
W2016475193 cites W2024214586 @default.
W2016475193 cites W2024434685 @default.
W2016475193 cites W2024620885 @default.
W2016475193 cites W2033439669 @default.
W2016475193 cites W2038856244 @default.
W2016475193 cites W2040599106 @default.
W2016475193 cites W2041825983 @default.
W2016475193 cites W2042177749 @default.
W2016475193 cites W2042828810 @default.
W2016475193 cites W2043132601 @default.
W2016475193 cites W2044562203 @default.
W2016475193 cites W2046810740 @default.
W2016475193 cites W2049705323 @default.
W2016475193 cites W2053886531 @default.
W2016475193 cites W2057638617 @default.
W2016475193 cites W2058546872 @default.
W2016475193 cites W2059734084 @default.
W2016475193 cites W2071582732 @default.
W2016475193 cites W2072830720 @default.
W2016475193 cites W2077106470 @default.
W2016475193 cites W2077406197 @default.
W2016475193 cites W2077538510 @default.
W2016475193 cites W2078991068 @default.
W2016475193 cites W2080025378 @default.
W2016475193 cites W2082135968 @default.
W2016475193 cites W2082403644 @default.
W2016475193 cites W2087007885 @default.
W2016475193 cites W2088308510 @default.
W2016475193 cites W2090952572 @default.
W2016475193 cites W2091057223 @default.
W2016475193 cites W2091188722 @default.
W2016475193 cites W2093014835 @default.
W2016475193 cites W2093176853 @default.
W2016475193 cites W2094033012 @default.
W2016475193 cites W2119872437 @default.
W2016475193 cites W2120520000 @default.
W2016475193 cites W2124995838 @default.
W2016475193 cites W2132351174 @default.
W2016475193 cites W2135539256 @default.
W2016475193 cites W2141317958 @default.
W2016475193 cites W2149342596 @default.
W2016475193 cites W2150278729 @default.
W2016475193 cites W2159056572 @default.
W2016475193 cites W2163116529 @default.
W2016475193 cites W2163722260 @default.
W2016475193 cites W2169988107 @default.
W2016475193 cites W2176086042 @default.
W2016475193 cites W2312738898 @default.
W2016475193 cites W2318041030 @default.
W2016475193 cites W2318546885 @default.
W2016475193 cites W2322095961 @default.
W2016475193 cites W2327089178 @default.
W2016475193 cites W2330076548 @default.
W2016475193 cites W2758145296 @default.
W2016475193 cites W362084975 @default.
W2016475193 cites W407652668 @default.
W2016475193 doi "https://doi.org/10.1116/1.4896489" @default.
W2016475193 hasPublicationYear "2014" @default.
W2016475193 type Work @default.
W2016475193 sameAs 2016475193 @default.
W2016475193 citedByCount "43" @default.
W2016475193 countsByYear W20164751932015 @default.
W2016475193 countsByYear W20164751932016 @default.
W2016475193 countsByYear W20164751932017 @default.
W2016475193 countsByYear W20164751932018 @default.
W2016475193 countsByYear W20164751932019 @default.
W2016475193 countsByYear W20164751932020 @default.