Civil Engineering Reference
In-Depth Information
Laik B, Carrière D, Tarascon J-M (2001) Reversible electrochromic system based on aqueous
solution containing silver. Electrochim Acta 46:2203-2209
Lampert CM (2003) Large-area smart glass and integrated photovoltaics. Solar Energy Mater
Solar Cells 76:489-499
Lampert CM, Granqvist CG (eds) (1990) Large-area chromogenics: materials and devices for
transmittance control. SPIE-The international society for optical engineering, Bellingham.
SPIE Institutes for Advanced Optical Technologies, vol IS 4
Lang Z-L, Guan W, Yan L-K et al (2012) The self-assembly mechanism of the Lindqvist anion
(W
6
O
19
)
2-
in
aqueous
solution:
a
density
functional
theory
study.
Dalton
Trans
41:11361-11368
Lansåker PC, Backholm J, Niklasson GA et al (2009) TiO
2
/Au/TiO
2
multilayer thin films: novel
metal-based
transparent
conductors
for
electrochromic
devices.
Thin
Solid
Films
518:1225-1229
Lansåker PC, Petersson P, Niklasson GA et al (2013) Thin sputter deposited gold films on
In
2
O
3
:Sn, SnO
2
: In, TiO
2
and glass: optical, electrical and structural effects. Solar Energy
Mater Solar Cells 117:462-470
Larsson A-L, Niklasson GA (2004) Optical properties of electrochromic all-solid-state devices.
Solar Energy Mater Solar Cells 84:351-360
LeCuyer A (2008) ETFE: technology and design. Birkhäuser, Basel
Lee ES, Claybaugh ES, LaFrance M (2012a) End user impacts of automated electrochromic
windows in a pilot retrofit application. Energy Build 47:267-284
Lee ES, Selkowitz SE, Clear RD et al (2006) Advancement of electrochromic windows.
California Energy Commission, PIER, CEC-500-2006-052
Lee KM, Abe Y, Kawamura M et al (2012b) Effects of substrate temperature on electrochromic
properties of cobalt oxide and hydroxide thin films prepared by reactive sputtering using O
2
and H
2
O gases. Jpn J Appl Phys 51:045501/1-045501/4
Li S-Y, Niklasson GA, Granqvist CG (2010) Nanothermochromics: calculations for VO
2
nanoparticles in dielectric hosts show much improved luminous transmittance and solar
energy transmittance modulation. J Appl Phys 108:063525/1-063525/8
Li S-Y, Niklasson GA, Granqvist CG (2011) Nanothermochromics with VO
2
-based core-shell
structures:
calculated
luminous and
solar optical
properties.
J Appl Phys
109:113515/
1-113515/5
Li S-Y, Niklasson GA, Granqvist CG (2012a) Thermochromic fenestration with VO
2
-based
materials: three challenges and how they can be met. Thin Solid Films 520:3823-3828
Li S-Y, Niklasson GA, Granqvist CG (2012b) Plasmon-induced near-infrared electrochromism
based on transparent conducting nanoparticles: approximate performance limits. Appl Phys
Lett 101:071903/1-071903/3
Liang L, Rulis P, Kahr B et al (2009) Theoretical study of the large linear dichroism of
herapathite. Phys Rev B 80:235132/1-235132/5
Lim SHN, Isidorsson J, Sun L et al (2013) Modeling of optical and energy performance of
tungsten-oxide-based
electrochromic
windows
including
their
intermediate
states.
Solar
Energy Mater Solar Cells 108:129-135
Lin S-Y, Chen Y-C, Wang C-M et al (2012) Study of MoO
3
-NiO complementary electrochromic
devices using a gel polymer electrolyte. Solid State Ionics 212:81-87
Magnéli A (1950) Crystal structure studies on beta-tungsten oxide. Arkiv Kemi 1:513-523
Maleknia S, Brodbelt J, Pope K (1991) Characterization of the reactive and dissociative behavior
of transition metal oxide cluster ions in the gas phase. J Am Soc Mass Spectrom 2:212-219
Marks AM (1969) Electrooptical characteristics of dipole suspensions. Appl Opt 8:1397-1412
Mathew JGH, Sapers SP, Cumbo MJ et al (1997) Large area electrochromics for architectural
applications. J Non-Cryst Solids 218:342-346
Mortimer RJ (2013) Switching colors with electricity. Am Sci 101:38-45
Nanba T, Yasui I (1989) X-ray diffraction study of microstructure of amorphous tungsten trioxide
films prepared be electron beam vacuum evaporation. J Solid State Chem 83:304-315
Nerdinger W (ed) (2005) Frei Otto: complete works. Birkhäuser, Basel
