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Li S-Y, Niklasson G A and Granqvist C G (2010), 'Nanothermochromics: Calcula-
tions for VO
2
nanoparticles in dielectric hosts show much improved luminous
transmittance and solar energy transmittance modulation',
J Appl Phys
, 108,
063525.
Li S-Y, Niklasson G A and Granqvist C G (2011a), 'Nanothermochromics with VO
2
-
based core-shell structures: calculated luminous and solar optical properties',
J
Appl Phys
, 109, 113515.
Li S-Y, Niklasson G A and Granqvist C G (2011b), 'A thermochromic low-emittance
coating: calculations for nanocomposites of In
2
O
3
:Sn and VO
2
',
Appl Phys Lett
,
99, 131907.
Li S-Y, Niklasson G A and Granqvist C G (2012), 'Thermochromic fenestration with
VO
2
-based materials: three challenges and how they can be met',
Thin Solid Films
,
520, 3823-3828.
Lu Z, Li C and Yin Y (2011), 'Synthesis and thermochromic properties of vanadium
dioxide colloidal particles',
J Mater Chem
, 21, 14776-14782.
Marks A M (1969), 'Electrooptical characteristics of dipole suspensions',
Appl Opt
,
8, 1397-1412.
Mathew J G H, Sapers S P, Cumbo M J, O'Brien N A, Sargent R B, Rakhsha V P,
Ladaherne R B and Hichwa B P (1997), 'Large area electrochromics for archi-
tectural applications',
J Non-Cryst Solids
, 218, 342-346.
Maxwell-Garnett J C (1904), 'Colours in metal glasses and in metallic fi lms',
Philos
Trans Roy Soc London
, 203, 385-420.
McKinsey & Co (2009),
Unlocking Energy Effi ciency in the US Economy
, available at:
http://www.mckinsey.com/clientservice/electricpowernaturalgas/downloads/US_
energy_effi ciency_full_report.pdf.
Metz B, Davidson O R, Bosch P, Dave R and Meyer L A (eds) (2007),
Climate
Change 2007: Mitigation. Contribution to Working Group III of the Fourth Assess-
ment Report of the Intergovernmental Panel on Climate Change
, Cambridge Uni-
versity Press, Cambridge.
Mitsuishi T (1967), 'On the phase transformation of VO
2
',
Jpn J Appl Phys
, 6,
1060-1071.
Mlyuka N R, Niklasson G A and Granqvist C G (2009a), 'Thermochromic multilayer
fi lms of VO
2
and TiO
2
with enhanced transmittance',
Solar Energy Mater Solar
Cells
, 93, 1685-1687.
Mlyuka N R, Niklasson G A and Granqvist C G (2009b), 'Thermochromic VO
2
-
based multilayer fi lms with enhanced luminous transmittance and solar modula-
tion',
Phys Stat Sol A
, 206, 2155-2160.
Mlyuka N R, Niklasson G A and Granqvist C G (2009c), 'Mg doping of thermo-
chromic VO
2
fi lm enhances the optical transmittance and decreases the metal-
insulator transition temperature',
Appl Phys Lett
, 95, 171909.
Monk P M S, Mortimer R J and Rosseinsky D R (2007),
Electrochromism and
Electrochromic Devices
, Cambridge University Press, Cambridge.
Morin F J (1959), 'Oxides which show a metal-to-insulator transition at the Neel
temperature',
Phys Rev Lett
, 3, 34-36.
Niklasson G A and Granqvist C G (1984), 'Optical properties and solar selectivity
of coevaporated Co-Al
2
O
3
composite fi lms,
J Appl Phys
, 55, 3382-3410.
Niklasson G A and Granqvist C G (2007), 'Electrochromics for smart windows: thin
fi lms of tungsten oxide and nickel oxide, and devices based on these',
J Mater
Chem
, 17, 127-156.
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