Civil Engineering Reference
In-Depth Information
Niklasson GA, Granqvist CG (2007) Electrochromics for smart windows: thin films of tungsten
oxide and nickel oxide, and devices based on these. J Mater Chem 17:127-156
Niu C (2011) Carbon nanotube transparent conducting films. MRS Bull 36:766-773
Niwa T, Takai O (2010) All-solid-state reflectance-type electrochromic devices using iridium tin
oxide as counter electrode. Thin Solid Films 518:5340-5344
Noguchi D, Taneda H, Higashimaru Y et al (2012) Ion conductivity of Ta
2
O
5
solid electrolyte
thin film prepared by combination sputtering with radio frequency oxygen plasma irradiation.
Jpn J Appl Phys 51:025801/1-025801/5
Omae K, Nakano M, Tanaka A et al (2011) Indium lung: case reports and epidemiology. Int Arch
Occup Environ Health 84:471-477
Ramezani
D,
Nybom
S
(2009)
Energiberäkningar
för
elektrokroma
fönster
(in
Swedish).
Unpublished report
Redel E, Mlynarski J, Moir J et al (2012) Electrochromic Bragg mirror: ECBM. Adv Mater
24:OP265-OP269
Schirmer OF, Wittwer V, Baur G et al (1977) Dependence of WO
3
electrochromic absorption on
crystallinity. J Electrochem Soc 124:749-753
Schwarz-Schampera U, Herzig P (2002) Indium: geology, mineralogy and economics. Springer,
Berlin
Smith GB, Granqvist CG (2010) Green nanotechnology: solutions for sustainability and energy in
the built environment. CRC Press, Boca Raton
Stjerna B, Olsson E, Granqvist CG (1994) Electrical and optical properties of RF sputtered tin
oxide films doped with oxygen vacancies, F, Sb, or Mo. J Appl Phys 76:3797-3817
Subrahmanyam
A,
Kumar
CS,
Karuppasamy
KM
(2007)
A
note
on
fast
protonic
state
electrochromic devices: NiO
x
/Ta
2
O
5
/WO
3-x
. Solar Energy Mater Solar Cells 91:62-66
Svensson JSEM, Granqvist CG (1986) Electrochromic coatings for ''smart windows''. Solar
Energy Mater 12:391-402
Sydam R, Deepa M, Srivastava AK (2012) Electrochromic device response controlled by an
in situ polymerized ionic liquid based gel electrolyte. RSC Adv 2:9011-9021
Tajima K, Yamada Y, Bao S et al (2010) Optical switching properties of all-solid-state switchable
mirror glass based on magnesium-nickel thin film for environmental temperature. Solar
Energy Mater Solar Cells 94:227-231
Tajima K, Yamada Y, Okada M et al (2011) Polyvinyl chloride seal layer for improving the
durability
of
electrochromic
mirrors
based
on
Mg-Ni
thin
film.
Thin
Solid
Films
519:8114-8118
Takeuchi H, Usuki A, Tatsuda N et al (1997) Suspended particle display using novel complexes.
Mater Res Soc Symp Proc 424:317-322
Talledo A, Granqvist CG (1995) Electrochromic vanadium-pentoxide-based films: structural,
electrochemical, and optical properties. J Appl Phys 77:4655-4666
Thakur
VK,
Ding
G,
Ma
J
et
al
(2012)
Hybrid
material
and
polymer
electrolytes
for
electrochromic device application. Adv Mater 24:4071-4096
Thornton JA (1974) Influence of apparatus geometry and deposition conditions on the structure
and topography of thick sputtered coatings. J Vac Sci Technol 11:666-670
Valyukh I, Green SV, Granqvist CG et al (2012) Ellipsometrically determined optical properties
of nickel-containing tungsten oxide thin films: nanostructure inferred from effective medium
theory. J Appl Phys 112:044308/1-044308/6
Wang S-C, Liu K-Y, Huang J-L (2011) Tantalum oxide film prepared by reactive magnetron
sputtering
deposition
for
all-solid-state
electrochromic
device.
Thin
Solid
Films
520:1454-1459
Wigginton M (1996) Glass in architecture. Phaidon, London
www.econtrol-glas.de
Cited 30 Dec 2012
www.sageglass.com
Cited 30 Dec 2012
www.soladigm.com
Cited 30 Dec 2012
Wyszecki G, Stiles WS (2000) Color science: concepts and methods, quantitative data and
formulae, 2nd edn. Wiley, New York
