The present disclosure provides a thermally activated delayed fluorescence (TADF) polymeric material having a molecular structure formed by a main chain of a polymerized TADF and a side chain connected to alkyl chains. This structure of the TADF polymeric material has excellent TADF properties and solubility. Further, an electroluminescent device can be prepared by solution processing and a good device effect can be obtained.

An electrochromic element including: a first electrode; a second electrode that is opposed to and apart from the first electrode; and an electrolyte that is between the first electrode and the second electrode, wherein the first electrode includes a polymerized product of an electrochromic composition that includes a radical-polymerizable compound including a triarylamine backbone, and wherein the second electrode includes a compound represented by General Formula (I) where R.sub.1 and R.sub.2 each denote a hydrogen atom, an aryl group including 14 or less carbon atoms, a heteroaryl group including 14 or less carbon atoms, a branched alkyl group including 10 or less carbon atoms, an alkenyl group including 10 or less carbon atoms, a cycloalkyl group including 10 or less carbon atoms, or a functional group that is capable of binding to a hydroxyl group; n and m each denote 0 or an integer of from 1 through 10; and X.sup. denotes a charge-neutralizing ion.

The disclosure relates generally to black-to-transmissive electrochromic polymers having superior properties such as absorbance of across the entire visible spectrum and an obvious color change from black to transmissive with an applied voltage. The disclosure also relates to methods for synthesizing or using the same. Further, the disclosure also relates to black-to-transmissive electrochromic polymer thin films comprising the black-to-transmissive electrochromic polymers, as well as electrochromic devices comprising the black-to-transmissive electrochromic polymers or thin films.

A module structure includes a front sheet, a back sheet opposite to the front sheet, and a solar cell disposed between the front sheet and the back sheet. A first encapsulation film is disposed between the solar cell and the front sheet, and a second encapsulation film is disposed between the solar cell and the back sheet. The first encapsulation film and the second encapsulation film include an encapsulation material, which includes a resin and a fluorescent molecule. The fluorescent molecule includes a fluorescent group bonded to a polyhedral oligomeric silsesquioxane.

The present invention relates to novel formulations comprising an organic semiconductor (OSC) and one or more organic solvents. The formulation comprises a viscosity at 25 C. of less than 15 mPas and the boiling point of the solvent is at most 400 C. Furthermore, the present invention describes the use of these formulations as inks for the preparation of organic electronic (OE) devices, especially organic photovoltaic (OPV) cells and OLED devices, to methods for preparing OE devices using the novel formulations, and to OE devices, OLED devices and OPV cells prepared from such methods and formulations.

An electrochromic polymer is comprised of a repeat unit comprising one or more meta-conjugated linkers (MCLs) and one or more aromatic moieties (Ars). Each of the one or more MCLs is partially conjugated with the one or more Ars at meta positions of the MCLs to form a polymer backbone of the electrochromic polymer. The electrochromic polymer undergoes an optical switching and a color change in an electrochromic device, which shows a high transparency and a high optical contrast.

Provided herein are black-to-transmissive electrochromic polymers having superior properties such as absorbance of across the entire visible spectrum and an obvious color change from black to transmissive with an applied voltage. Provided also include methods for synthesizing or using the same. The black-to-transmissive electrochromic polymer thin films may comprise the black-to-transmissive electrochromic polymers, as well as electrochromic devices comprising the black-to-transmissive electrochromic polymers or thin films.

A film-forming ink includes a film-forming material and a liquid medium in which the film-forming material is dissolved or dispersed. The liquid medium contains a first component which has a viscosity of less than 20 cp and a second component which has a boiling point at an atmospheric pressure within a range of 30 C. relative to the boiling point at an atmospheric pressure of the first component and has a viscosity of 20 cp or more, and the second component is contained in an amount of 20 parts by weight or more and 500 parts by weight or less with respect to 100 parts by weight of the first component.

Disclosed herein are new electrochromic materials, including small molecule, oligomeric, and polymeric electrochromic materials, and compositions comprising the electrochromic materials and a salt. Further disclosed are electrochromic devices prepared from the electrochromic materials and electrochromic material compositions. Also disclosed are melt processable polymeric electrochromic materials, melt processable compositions comprising the melt processable polymeric electrochromic material, and a salt; and devices prepared therefrom.

Provided are transparent molded bodies for use as a scintillator for measuring the type and intensity of ionizing and non-ionizing radiation, including an organic polymer and, if desired, at least one additive which, under the influence of at least one of ionizing and non-ionizing radiation, emits scintillation radiation in the range from UV to IR light, the aim is to improve optical and mechanical properties, robustness against environmental influences and the manufacturability. This was achieved in that the organic polymer at least in part contains a polyaddition product of polyfunctional isocyanates and one or more polyfunctional hardener components.