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Self-Powered Dynamic Glazing Based on Nematic Liquid Crystals and Organic Photovoltaic Layers for Smart Window Applications

Sadiara Fall, Jing Wang, Thomas Regrettier, Nicolas Brouckaert, Olzhas A. Ibraikulov, Nicolas Leclerc, Yaochen Lin, Mohammed Ibn Elhaj, L. Komitov, Patrick Lévêque, Yuhan Zhong, Martin Brinkmann, Malgosia Kaczmarek, T. Heiser

2023ACS Applied Materials & Interfaces15 citationsDOI

Abstract

Dynamic windows allow monitoring of in-door solar radiation and thus improve user comfort and energy efficiency in buildings and vehicles. Existing technologies are, however, hampered by limitations in switching speed, energy efficiency, user control, or production costs. Here, we introduce a new concept for self-powered switchable glazing that combines a nematic liquid crystal, as an electro-optic active layer, with an organic photovoltaic material. The latter aligns the liquid crystal molecules and generates, under illumination, an electric field that changes the molecular orientation and thereby the device transmittance in the visible and near-infrared region. Small-area devices can be switched from clear to dark in hundreds of milliseconds without an external power supply. The drop in transmittance can be adjusted using a variable resistor and is shown to be reversible and stable for more than 5 h. First solution-processed large-area (15 cm 2 ) devices are presented, and prospects for smart window applications are discussed.

Topics & Concepts

Liquid crystalMaterials scienceGlazingPhotovoltaic systemTransmittanceOptoelectronicsLiquid-crystal displayDrop (telecommunication)OpticsComputer scienceElectrical engineeringComposite materialTelecommunicationsEngineeringPhysicsTransition Metal Oxide NanomaterialsLiquid Crystal Research AdvancementsAdvanced Materials and Mechanics