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Matches in DBpedia 2016-04 for { ?s ?p "Quasi-crystals are supramolecular aggregates exhibiting both crystalline (solid) properties as well as amorphous, liquid-like properties.Self-organized structures termed \"quasi-crystals\" were originally described in 1978 by the Israeli scientist Valeri A. Krongauz of the Weizmann Institute of Science, in the Nature paper, Quasi-crystals from irradiated photochromic dyes in an applied electric field. In his 1978 paper Krongauz coined the term “Quasi-Crystals” for the new self-organized colloidal particles . The Quasi-crystals are supramolecular aggregates manifesting both crystalline properties e.g. Bragg scattering, as well as amorphous, liquid-like properties i.e. drop-like shapes, fluidity, extensibility and elasticity in electric field. The supramolecular Quasi-crystals are produced in photochemical reaction by exposing solutions of photochromic spiropyran molecules to UV radiation. The ultraviolet light induces the conversion of the spiropyrans to merocyanine molecules that manifest electric dipole moments. (see Scheme 1). The quasi-crystals have external shape of submicron globules and their internal structure consists of crystals enveloped by an amorphous matter(see Fig. 1).The crystals are formed by self-assembled stacks of the merocyanine molecular dipoles aligningthemselves in a parallel manner, while amorphous envelopes consist of thesame merocyanine dipoles aligned in an anti-parallel manner (Fig.1,Scheme2). In an applied electrostatic field, quasi-crystals form macroscopicthreads that show linear optical dichroism.Later Krongauz described unusual phase transitions of molecules composedof mesogenic and spiropyran moieties, which he named \"quasi-liquidcrystals.\" A micrograph of their mesophase appeared on the cover of Nature in a 1984 paper, “Quasi-Liquid Crystals.” The investigation of spiropyran-merocyanineself-organized systems, including macromolecules (see, for example, Fig. 2),has continued over the years.These studies have resulted in discoveries ofunusual and practically significant phenomena. Thus, in the electrostatic field, quasi-crystals andquasi-liquid crystals have exhibited 2nd order non-linear opticalproperties.Potential applications of these fascinating materials have been described and patented.Work on spiropyran-merocyanineself-assemblies currently continues in several laboratories –see, for example,reference [18] and the references cited in that study."@en }

• Quasi-crystals_(supramolecular) abstract "Quasi-crystals are supramolecular aggregates exhibiting both crystalline (solid) properties as well as amorphous, liquid-like properties.Self-organized structures termed \"quasi-crystals\" were originally described in 1978 by the Israeli scientist Valeri A. Krongauz of the Weizmann Institute of Science, in the Nature paper, Quasi-crystals from irradiated photochromic dyes in an applied electric field. In his 1978 paper Krongauz coined the term “Quasi-Crystals” for the new self-organized colloidal particles . The Quasi-crystals are supramolecular aggregates manifesting both crystalline properties e.g. Bragg scattering, as well as amorphous, liquid-like properties i.e. drop-like shapes, fluidity, extensibility and elasticity in electric field. The supramolecular Quasi-crystals are produced in photochemical reaction by exposing solutions of photochromic spiropyran molecules to UV radiation. The ultraviolet light induces the conversion of the spiropyrans to merocyanine molecules that manifest electric dipole moments. (see Scheme 1). The quasi-crystals have external shape of submicron globules and their internal structure consists of crystals enveloped by an amorphous matter(see Fig. 1).The crystals are formed by self-assembled stacks of the merocyanine molecular dipoles aligningthemselves in a parallel manner, while amorphous envelopes consist of thesame merocyanine dipoles aligned in an anti-parallel manner (Fig.1,Scheme2). In an applied electrostatic field, quasi-crystals form macroscopicthreads that show linear optical dichroism.Later Krongauz described unusual phase transitions of molecules composedof mesogenic and spiropyran moieties, which he named \"quasi-liquidcrystals.\" A micrograph of their mesophase appeared on the cover of Nature in a 1984 paper, “Quasi-Liquid Crystals.” The investigation of spiropyran-merocyanineself-organized systems, including macromolecules (see, for example, Fig. 2),has continued over the years.These studies have resulted in discoveries ofunusual and practically significant phenomena. Thus, in the electrostatic field, quasi-crystals andquasi-liquid crystals have exhibited 2nd order non-linear opticalproperties.Potential applications of these fascinating materials have been described and patented.Work on spiropyran-merocyanineself-assemblies currently continues in several laboratories –see, for example,reference [18] and the references cited in that study.".