74 results about "High-refractive-index polymer" patented technology

Multilayer optical films are comprised of materials with glass transition temperatures below room temperature (<30° C.). The high refractive index polymers are unique in that they exhibit mechanical properties similar to other low Tg semi-crystalline polymers, yet have significant birefringence (>0.05) when strain induced oriented. Novel combinations of comonomers for thermoplastics control the rate of crystallinity for improved processability and flexibility, giving the films crease and crumple recovery advantages.

The invention relates to novel sulfur-containing (meth)acrylic monomers and compositions thereof characterized by a high refractive index, for optical and industrial applications. The invention also relates to a method for preparing high refractive index polymeric materials and more specifically to a method for formation of ultraviolet cast optical lenses and compositions thereof comprising the sulfur-containing (meth)acrylic monomers.

A process for producing polysiloxane prepolymers of improved homogeneity for use in the production of relatively high refractive index polymeric compositions is described herein. Polymeric compositions so produced are useful in the production of ophthalmic devices such as for example intraocular lenses and corneal inlays. The preferred polymeric compositions are produced through the copolymerization of one or more polysiloxane prepolymers with hydrosilane-containing polysiloxanes.

The present invention discloses to a high refractive index polysiloxane (co)polymer comprising refractive index modifying groups chemically bonded in clustered configuration to the polysiloxane backbone. The invention also discloses methods for the preparation of such high refractive index polysiloxane (co)polymers. A polysiloxane according to the invention is very suitable for use as a material for the production of intra-ocular lenses.

Disclosed is an antireflective laminate that has significantly improved water resistance, alkaline resistance, and wetting resistance, and has improved visibility and scratch resistance. The antireflective laminate comprises a light-transparent base material and a low-refractive index layer provided on the light-transparent base material, wherein the low-refractive index layer is provided directly on a surface of the light-transparent base material or is provided on the outermost surface of one or two or more optional layers provided on the surface of the light-transparent base material, and the low-refractive index layer comprises hydrophobitized fine particles having an average particle diameter of not less than 5 nm and not more than 300 nm, and a binder.

An antireflection film has an organic film 1, a hard-coating layer 2, an electrically conductive high refractive index layer 3 and a low refractive index layer 4, in which the layers 2, 3 and 4 are laminated on the organic film 1, in this order. The high refractive index layer 3 includes particles composed of two or more types of metal oxide, in which at least one of two or more types of the metal oxide is electrically conductive metal oxide. The high refractive index layer 3 has an exceedingly high refractive index. The low refractive index layer 4 may have a relatively high refractive index.

The current invention provides a method of forming a foldable intraocular having a high refractive index from a copolymer comprising a first monomer comprising an aryl acrylate or an aryl methacrylate; a second monomer comprising an aromatic ring comprising a substituent having one ethylenic unsaturation, provided that the second monomer is not an aryl acryate or aryl methacrylate, and a third monomer comprising one ethylenic unsaturation that, if polymerized into a homopolymer, forms a high water content hydrogel; and, optionally, a cross-linking agent.

An LED (Light-Emitting Diode) packaging silica gel with high refractive index, light transmittance and power is composed of two adhesives A and B according to parts by weight, wherein the adhesive A comprises the following components: phenyl vinyl polysiloxane, phenyl silicone, a quick-drying agent, a light stabilizer and an antioxidant; and the adhesive B comprises the following components: phenyl vinyl polysiloxane, phenyl hydrogen polysiloxane, a retarder, a defoamer and an ultraviolet absorber. The LED packaging silica gel employs a two-component packaging manner; the production process of the LED packaging silica gel is simple and easy to implement; the storage of the LED packaging silica gel is convenient without special requirement for the environment; and the period of storage is long, and production is facilitated. In use, the silica gel formed through simple blending is good in bonding strength, high in strength, high in light transmittance and refractive index, and has the advantages of being excellent in high-temperature resistance, good in aging and weather resistance and the like.

The invention relates to an infrared anti-reflecting film and a preparation method thereof, and belongs to the technical field of films. Lambada 0 / 4 to Lambada 0 / 4 double-layer anti-reflecting films with high refractive index (2) and low refractive index (3) are prepared on a ZnSe basal body (1) in sequence through taking 3 to 12 Mu m as central wave length Lambada 0. The refractive index of the high refractive index film (2) is 3.0 to 4.0, and the optical thickness thereof is 1 to 3 Mu m; the refractive index of the low refractive index film (3) is 2.1 to 2.6, and the optical thickness thereof is 0.75 to 3 Mu m. The preparation method comprises the step of depositing the GexC1-x anti-reflecting films on single side or double sides of the ZnSe basal body by adopting the intermediate frequency and the direct current double-target magnetic control sputtering method and taking Ge and C as target sources, and CH4 and Ar mixed gas as auxiliary discharge gas. Two layers of GexC1 minus x films with different refractive indexes are prepared through controlling the sputtering current proportion of Ge and C targets and controlling the partial pressure ratio of CH4 / Ar; and the thickness of each film achieves Lambada 0 / 4 through controlling the time and other parameters. The method has the advantages of less parameter diversionary, simple control, and good anti-reflecting effect.

High refractive index and optically clear copoly(carbosilane and siloxane) elastomers and ophthalmic lenses made therefrom are provided. The elastomers are comprised of copolymers having carbosilane repeat units and siloxane repeat units. The copolymers and ophthalmic lenses of the present invention have a high refractive index and excellent folding recoverability.

The invention relates to an angstrom anti-blue lens and a preparation method thereof. The lens includes a substrate, a priming layer, a composite film layer and a protective layer. The priming layer is made of silicon dioxide or a silicon-aluminum mixture, and has a thickness of 800+ / -100 angstroms. The composite film layer includes a film formed by alternately stacking 4 layers, 6 layers or 8 layers of high refractive index layers and low refractive index layers, the high refractive index layer is made of any one of Ta2O5, Ti3O5 or Nb2O5 and has a thickness of 500+ / -100 angstroms, and the lowrefractive index layer is made of silica or a silicon-aluminum mixture. The prepared angstrom anti-blue lens has a good effect of reflecting light with a wavelength of 340-500 nm and has an anti-bluelight effect; after the lens is subjected to salt water boiling and pure water soaking cycle 11 times, no film layer falls off in a 100-square test, and the angstrom anti-blue lens has good film layer adhesive force. The angstrom anti-blue lens has a good seawater corrosion resistance, and is especially suitable for the seaside environment.

The invention relates to an optical communication waveband polymer waveguide grating coupler and a manufacturing method thereof. The waveguide grating coupler comprises a grating structure and a waveguide structure, wherein the grating structure is composed of a substrate, a low-refractive-index waveguide lower coverage layer, a high-refractive-index medium layer, a high-refractive-index waveguidecore layer and an air layer; the waveguide structure is composed of a substrate, a low-refractive-index waveguide lower coverage layer, a high-refractive-index waveguide core layer and an air layer.A key preparation technology of the waveguide grating coupler comprises the following steps: manufacturing a main mold and a soft secondary mold; manufacturing the substrates and the low-refractive-index waveguide lower coverage layers of the grating structure and the waveguide structure; manufacturing the high-refractive-index medium layer of the grating structure; spinning and covering a high-refractive-index polymer waveguide core layer material. The optical communication waveband polymer waveguide grating coupler and the manufacturing method thereof have the advantages of simple realization technology and low cost; the difficulty of aligning a polymer waveguide and a common single-mode optical fiber through an end face coupling manner can be effectively reduced, and application researches of a polymer integrated photonic device in the aspects of optical sensing and optical interconnection are easily propelled.

The invention provides a medium-high refractive index optical resin lens and a preparation method thereof. The invention aims to provide the preparation method of the medium-high refractive index resin lens adjusted in a range of 1.59 to 1.67, to meet requirements on different high-refraction polymers. Compared with the prior art, a medium-high refractive index polymer provided by the invention isexcellent in comprehensive performance, the optical resin lens with the refractive index as high as 1.67 and higher impact strength and heat resistance is prepared by adjusting the variety and proportion of raw materials, and particularly, the preparation method is simple and convenient, lower in cost and easy for industrial production. The resin is prepared from the following raw materials: oneor more polyisocyanates and one or more polythiol compounds which are added according to a ratio of 0.7:1 to 1.5:1, a phosphate release agent accounting for 0.02%-2% of the total mass, an organic tincatalyst accounting for 0.02%-2% of the total mass, and an antioxidant accounting for 0.02%-2% of the total mass.

This antireflection film includes a dielectric layer having a surface exposed to air and having a refractive index of 1.35 or more and 1.51 or less, a metal layer having an interface with the dielectric layer, containing silver, and having a thickness of 5 nm or less, and an interlayer having an interface with the metal layer and constituted by a laminate formed by alternately laminating total four layers or more of a layer of high refractive index having a relatively high refractive index and a layer of low refractive index having a relatively low refractive index and is laminated on a substrate having a refractive index of 1.61 or more in the order of the interlayer, the metal layer, and the dielectric layer.

The invention provides an optical polymer material having a low viscosity before curing, a high refractive index of a cured product, little alteration of refractive index under high temperature and high humidity, and an excellent heat resistant shock property and an optical component using the optical polymer material.The optical polymer material is characterized in that the material contains a fluorene compound having four (meth) acryloyl groups and a (meth) acrylate having an aryl group and may further contain -M-O-M- bond (M is a metal atom), an organometallic polymer having an aryl group, a monofunctional (meth)acrylate and / or a polyfunctional (meth)acrylate.

A spin-coated polymer microcavity for light emitters and lasers producing enhancement of spontaneous emission rate from colloidal CdSe / ZnS core / shell quantum dots embedded in a one dimensional polymer microcavity structure at room temperature. The polymer microcavity structures are fabricated using spin coating. Alternating layers of polymers of two different refractive indices were stacked to form the Distributed Bragg reflectors (DBRs). To achieve high reflectivity, the polymers for the DBR structures were chosen so that they have a relatively high refractive index ratio. The high and low refractive index polymers chosen were poly-N(vinylcarbazole) (PVK) and poly acrylic acid (PAA), with refractive indices of 1.683 and 1.420 at 600 nm, respectively. Thin films of quarter wavelength thickness of the two polymers are alternately spin coated on a glass substrate to make the DBR structures. Greater than 90% reflectivity is obtained using ten periods of the structure. A PVK cavity layer of λ thickness embedded with CdSe / ZnS core / shell quantum dots is sandwiched between two of these DBRs to form the entire microcavity structure. The bottom and top DBRs comprise ten and five periods, respectively.

Provided are monomers of formula (I), polymerizable compositions comprising the monomer of formula (I) optionally together with other co-polymerizable monomers and polymers obtained or obtainable from the polymerizable compositions, where the monomer of formula (I) is represented thus: Wherein —R1 is —H or alkyl; —Z— is -0-, —NH—, or —N(R)—, where —R is optionally substituted alkyl or aryl; -Ar1 and -Ar2 are each independently optionally substituted aryl; and —R2 is —H, or optionally substituted alkyl or aryl.