| 1 |
A comparative energy analysis of three electrochromic glazing technologies in commercial and residential buildings
DeForest N, Shehabi A, Selkowitz S, Milliron DJ
Applied Energy, 192, 95, 2017 |
| 2 |
Energy performance comparison among see-through amorphous-silicon PV (photovoltaic) glazings and traditional glazings under different architectural conditions in China
Liao W, Xu S
Energy, 83, 267, 2015 |
| 3 |
Summer performance of ventilated windows with absorbing or smart glazings
Skaff MC, Gosselin L
Solar Energy, 105, 2, 2014 |
| 4 |
An empirical model for angle-dependent g-values of glazings
Singh MC, Garg SN
Energy and Buildings, 42(3), 375, 2010 |
| 5 |
On-site performance of electrochromic glazings coupled to an anidolic daylighting system
Page J, Scartezzini JL, Kaempf J, Morel N
Solar Energy, 81(9), 1166, 2007 |
| 6 |
Development and validation of a Radiance model for a translucent panel
Reinhart CF, Andersen M
Energy and Buildings, 38(7), 890, 2006 |
| 7 |
Comparative evaluation of the infrared transmission of polymer films
Tsilingiris PT
Energy Conversion and Management, 44(18), 2839, 2003 |
| 8 |
The total infrared transmittance of polymerised vinyl fluoride films for a wide range of radiant source temperature
Tsilingiris PT
Renewable Energy, 28(6), 887, 2003 |
| 9 |
Simulation study of a solar collector with a selectively coated polymeric double walled absorber plate
Kudish AI, Evseev EG, Walter G, Leukefeld T
Energy Conversion and Management, 43(5), 651, 2002 |
| 10 |
Large area electrochromic films - preparation and performance
Bell JM, Skryabin IL, Koplick AJ
Solar Energy Materials and Solar Cells, 68(3-4), 239, 2001 |
