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While PDLC and SPD are most commonly applied to films, electrochromic products are coated directly onto ITO conductive glass. When electricity is applied, the ITO conductive coating forces the molecules or particles in the chemical layer of the film to align, creating transparency. This film interlayer consists of a PDLC formulation, or an SPD emulsion, that is coated between two sheets of transparent materials that each have an ITO conductive coating. Smart glass using PDLC or SPD includes a film interlayer that is either laminated or retrofitted onto glass. They are particularly popular for glass-walled or partitioned conference rooms in agile workspaces based on open floor plans, or in hotel guestrooms where space is limited and traditional curtains ruin design aesthetics. The technologies that allow you to instantly switch surfaces from transparent to opaque are the ones referred to as Privacy Glass. LCG® – light control glass | Switchable glass | Smart tint | Tintable glass | Privacy glass | Dynamic glass
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Thermochromic glass, eg: coated windows that change in response to temperature.Photochromic glass, eg: eyeglasses with coatings that automatically tint in sunlight.The following are the two passive smart glass technologies and common applications for each: Electrochromic (EC) glass, eg: coated windows that slowly tint for shading.Suspended Particle Device (SPD) glass, eg: windows that tint to shade as seen in automotive and buildings.Polymer Dispersed Liquid Crystal (PDLC) glass, eg: typically seen in privacy partitions in various industries.Types of active switchable glass technologies and their common applications include: The term smart glass mainly refers to active technologies in which privacy glass films and coatings, activated by an electrical charge, change the appearance and functionality of the glass. These are defined by whether or not their changeability requires an electrical charge. There are two primary types of smart glass: active and passive. The technology can be integrated into windows, partitions and other transparent surfaces in various sectors, including architecture, interior design, automotive, smart retail windows, and consumer electronics. Privacy glass products are based on technologies that allow transparent materials (like glass or polycarbonate) to switch, on demand, from clear to shaded or completely opaque. This technology allows for the control of various forms of light including visible light, UV, and IR. Smart glass is dynamic, allowing a traditionally static material to become alive and multifunctional.