Reverse-mode Polymer Dispersed Liquid Crystals (rev-PDLCs) are composite materials generally obtained by the phase separation of dispersions of liquid crystal/monomer mixtures and characterised by the possibility to change on-demand their transmittance in a continuous manner from an initial transparent state to an opaque one by application of an electric field. Rev-PDLCs have found applications in many fields, including large-area smart windows, automotive, and bifunctional devices. In this work, acrylate monomers with different functionality (from 3 to 6) and weight ratios (from 5 to 15%) were used to finely adjust the morphology and electro-optical properties of the rev-PDLCs obtained by photo-polymerisation of an aligned LC/LC monomer mixture. The doping of nematic liquid crystalline monomers with acrylate monomers allowed to finely tune the morphology of rev-PDLC films, which were characterised by highly transparent OFF-states (TOFF always larger than 60%), strongly opaque ON-states (TON always around or lower than 1%), but with contrast ratios, transmittance slopes, threshold and switching fields dependent on the amount and functionality of used monomers. Such results could represent a valid method to overcome the drawback of relatively low materials to be used as starting components in the fabrication of reverse mode dimming films.
Tuning the morphology and electro-optical properties of reverse mode PDLCs using multifunctional acrylates
Baratta M.;Nicoletta F. P.;De Filpo G.
2024-01-01
Abstract
Reverse-mode Polymer Dispersed Liquid Crystals (rev-PDLCs) are composite materials generally obtained by the phase separation of dispersions of liquid crystal/monomer mixtures and characterised by the possibility to change on-demand their transmittance in a continuous manner from an initial transparent state to an opaque one by application of an electric field. Rev-PDLCs have found applications in many fields, including large-area smart windows, automotive, and bifunctional devices. In this work, acrylate monomers with different functionality (from 3 to 6) and weight ratios (from 5 to 15%) were used to finely adjust the morphology and electro-optical properties of the rev-PDLCs obtained by photo-polymerisation of an aligned LC/LC monomer mixture. The doping of nematic liquid crystalline monomers with acrylate monomers allowed to finely tune the morphology of rev-PDLC films, which were characterised by highly transparent OFF-states (TOFF always larger than 60%), strongly opaque ON-states (TON always around or lower than 1%), but with contrast ratios, transmittance slopes, threshold and switching fields dependent on the amount and functionality of used monomers. Such results could represent a valid method to overcome the drawback of relatively low materials to be used as starting components in the fabrication of reverse mode dimming films.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.