Flexible foils with electrochromic coatings: science, technology and applications

“…[15,16] Many studies already exist [17,18] and hundreds of new papers appear each year reporting on new Li + -ion conductors and their methods of synthesis [19,20] as well as on their diffusion properties and application possibilities in secondary-ion batteries, particularly when they have been prepared in a nanostructured form. [4,5,[21][22][23][24] The knowledge about reliable diffusion parameters of Li + ions in solid electrolytes plays not only one of the key roles in the field of battery development, but is also-as diffusion is a ubiquitous phenomenon in nature-of great interest in physical chemistry and materials science in general.…”

From Micro to Macro: Access to Long‐Range Li⁺ Diffusion Parameters in Solids via Microscopic ^6, 7Li Spin‐Alignment Echo NMR Spectroscopy

“…[15,16] Many studies already exist [17,18] and hundreds of new papers appear each year reporting on new Li + -ion conductors and their methods of synthesis [19,20] as well as on their diffusion properties and application possibilities in secondary-ion batteries, particularly when they have been prepared in a nanostructured form. [4,5,[21][22][23][24] The knowledge about reliable diffusion parameters of Li + ions in solid electrolytes plays not only one of the key roles in the field of battery development, but is also-as diffusion is a ubiquitous phenomenon in nature-of great interest in physical chemistry and materials science in general.…”

From Micro to Macro: Access to Long‐Range Li⁺ Diffusion Parameters in Solids via Microscopic ^6, 7Li Spin‐Alignment Echo NMR Spectroscopy

“…For various aspects and information on electrochromic materials and windows it is referred to the available literature, e.g. the studies by Alamri (2009), Azens et al (2005), Baetens et al (2010a), Bhadra et al (2009), Bouessay et al (2002), Carpenter et al (1987), Carpenter and Conell (1990), K. -C. Chen et al (2011), Z. , Fantini and Gorenstein (1987), Geniès et al (1990), Granqvist (1989Granqvist ( , 1991Granqvist ( , 1995Granqvist ( , 2000Granqvist ( , 2005Granqvist ( , 2008Granqvist ( , 2012, Granqvist et al (1997Granqvist et al ( , 2003Granqvist et al ( , 2010, Green et al (2012ab), Jelle et al (1992ab, 1993abc, 2007, Hagen (1993, 1999ab), Kalagi et al (2011), Karuppasamy and Subrahmanyam (2007), Lampert (1980Lampert ( , 1984Lampert ( , 1986Lampert ( , 1989Lampert ( , 1998Lampert ( , 2004, Lampert and Ma (1992), Lampert et al (1999), Lee and DiBartolomeo (2002), Lee et al (2006ab), Leventis and Chung (1990), Makimura et al (2006), Monk et al (1995Monk et al ( , 2001, Mortimer (1999), …”

Solar radiation glazing factors for window panes, glass structures and electrochromic windows in buildings—Measurement and calculation

“…Among all materials, the most common electrochromic material remains WO3 [16][17][18]. As a matter of fact, close to fifteen years ago Granqvist et al [19] incorporated an EC foil containing WO3 as the cathodic EC material and NiO-based as ion storage thin films in helmet visors with variable transmittance from dark state in sunlight to clear state in the dark [20]. However, as a general trend, the electrochromic performance of ECDs based on 2 oxides suffer from a non-negligible operating voltage and a switching time considered as too slow for various applications.…”

Eco-friendly redox mediator gelatin-electrolyte for simplified TiO2-viologen based electrochromic devices