Abstract: The present invention relates to an antiviral material including a Cu-M-O compound, in which the Cu at least includes a monovalent-state Cu and the M is at least one element selected from the group consisting of B, Al, Sc, Ti, Co, Cr, Ni, Ga, Y, Zr, In, Rh, and a lanthanoid.

Abstract: The translucent structure of the present invention has a haze of higher than 10% and at most 70% and has a concavo-convex structure on its surface. The concavo-convex structure has first convex portions having a diameter of larger than 10 ?m in a cross section at a height of 0.05 ?m+the bearing height of a surface shape, and second convex portions having a diameter of larger than 1 ?m in a cross section at a height of 0.5 ?m+the bearing height. The average diameter of the first convex portions is larger than 10 ?m and at most 185 ?m in a cross section at a height of 0.05 ?m+the bearing height. The maximum height of the first convex portions is from 0.2 to 8 ?m. The number of the second convex portions is from 0.0004 to 1.2 per 1 um2.

Abstract: The present invention relates to an optical filter, a solid-state imaging element and an imaging device lens which contain a near infrared ray absorbing layer having a specific near infrared ray absorbing dye dispersed in a transparent resin having a refractive index of 1.54 or more, and also relates to an imaging device containing the solid-state imaging element or the imaging device lens. The near infrared ray absorbing layer has a transmittance of visible light of from 450 to 600 nm of 70% or more, a transmittance of light in a wavelength region of from 695 to 720 nm of not more than 10%, and an amount of change of transmittance of not more than ?0.8.

Abstract: An optical filter including a near infrared absorbing layer on a glass substrate, in which adhesiveness between the glass substrate and the near infrared absorbing layer is firm, high reliability is enabled in uses under a high temperature and high humidity environment, and manufacturing yield is secured, and a high reliability solid-state imaging device having the optical filter are provided. An optical filter includes: a glass substrate; and a near infrared absorbing layer formed on one principal surface of the glass substrate, wherein the near infrared absorbing layer is obtained by reacting a composition for forming the near infrared absorbing layer on the glass substrate and the composition contains a transparent resin having a fluorene skeleton and a reactivity group; a near infrared absorbing dye; and a silane coupling agent and/or oligomer thereof having a hydrolyzable group and a functional group which have reactivity for the reactivity group.

Abstract: To provide a translucent structure, which is excellent in the antiglare property, and which has its sparkle sufficiently suppressed. The translucent structure of the present invention has the following concavo-convex structure on its surface. The concavo-convex structure: having first convex portions having a diameter of larger than 10 ?m in a cross section at a height of 0.05 ?m+the bearing height of a surface shape obtained by measuring a region of 101×135 ?m to 111×148 ?m by a laser microscope, and second convex portions having a diameter of larger than 1 ?m in a cross section at a height of 0.5 ?m+the above bearing height of the surface shape; the average diameter of the first convex portions being larger than 10 ?m and at most 185 ?m in a cross section at a height of 0.05 ?m+the above bearing height of the surface shape; the maximum height of the first convex portions being from 0.

Abstract: A vital signs information measuring apparatus includes: an internal clock; a first correcting section which is configured to execute first time correction on the internal clock by using time information, and which is configured to store a time correction amount in a storage section, the time correction amount indicating a degree of deviation of a time of the internal clock at a timing when the first time correction is performed by the first correcting section; and a second correcting section which, in a case where it is detected that the first correcting section fails to normally correct the time of the internal clock at a prescribed timing, is configured to perform second time correction on the internal clock by using a history of the time correction amount stored in the storage section.

Abstract: The present invention relates to an optical filter, a solid-state imaging element and an imaging device lens which contain a near infrared ray absorbing layer having a specific near infrared ray absorbing dye dispersed in a transparent resin having a refractive index of 1.54 or more, and also relates to an imaging device containing the solid-state imaging element or the imaging device lens. The near infrared ray absorbing layer has a transmittance of visible light of from 450 to 600 nm of 70% or more, a transmittance of light in a wavelength region of from 695 to 720 nm of not more than 10%, and an amount of change of transmittance of not more than ?0.8.

Abstract: The present invention relates to an optical filter, a solid-state imaging element and an imaging device lens which contain a near infrared ray absorbing layer having a specific near infrared ray absorbing dye dispersed in a transparent resin having a refractive index of 1.54 or more, and also relates to an imaging device containing the solid-state imaging element or the imaging device lens. The near infrared ray absorbing layer has a transmittance of visible light of from 450 to 600 nm of 70% or more, a transmittance of light in a wavelength region of from 695 to 720 nm of not more than 10%, and an amount of change of transmittance of not more than ?0.8.

Abstract: An infrared cut filter is disclosed. This filter includes a transparent substrate and one or more infrared absorbing layers containing an infrared absorbing compound on at least one principal surface of the transparent substrate, wherein a transmittance at a wavelength of 1200 nm measured in a stack composed of the transparent substrate and the one or more infrared absorbing layers is 10% or less.

Abstract: The present invention relates to an optical filter, a solid-state imaging element and an imaging device lens which contain a near infrared ray absorbing layer having a specific near infrared ray absorbing dye dispersed in a transparent resin having a refractive index of 1.54 or more, and also relates to an imaging device containing the solid-state imaging element or the imaging device lens. The near infrared ray absorbing layer has a transmittance of visible light of from 450 to 600 nm of 70% or more, a transmittance of light in a wavelength region of from 695 to 720 nm of not more than 10%, and an amount of change of transmittance of not more than ?0.

Abstract: An optical filter including a near infrared absorbing layer on a glass substrate, in which adhesiveness between the glass substrate and the near infrared absorbing layer is firm, high reliability is enabled in uses under a high temperature and high humidity environment, and manufacturing yield is secured, and a high reliability solid-state imaging device having the optical filter are provided. An optical filter includes: a glass substrate; and a near infrared absorbing layer formed on one principal surface of the glass substrate, wherein the near infrared absorbing layer is obtained by reacting a composition for forming the near infrared absorbing layer on the glass substrate and the composition contains a transparent resin having a fluorene skeleton and a reactivity group; a near infrared absorbing dye; and a silane coupling agent and/or oligomer thereof having a hydrolyzable group and a functional group which have reactivity for the reactivity group.

Abstract: The present invention relates to a process for manufacturing a copper hydride fine particle dispersion, the process including: reducing a copper(II) salt with a hydrido-based reducing agent in the following solvent (A) in the presence of the following alkylamine (B): solvent (A): a solvent having a solubility parameter (SP value) of from 8 to 12 and being inert to the hydrido-based reducing agent and alkylamine (B): an alkylamine having an alkyl group which has 7 or more carbon atoms and having a boiling point of 250° C. or lower.

Abstract: Provided is a process for producing a glass plate with a conductive printed wire, which does not require a screen plate for each model, facilitates adjustments for desired heat generation performance or antenna performance, has an excellent adhesion to a glass plate surface, and minimizes surface roughness. The process for producing a glass plate with a conductive printed wire is characterized in that a laminate comprising a layer obtained by electro printing a first conductive toner having a number standard average particle size (D50) of 10 ?m<D50?50 ?m and a layer obtained by electro printing a second conductive toner having a particle size (D50) of 5 ?m?D50?10 ?m is formed on a surface of a glass plate and the glass plate is heated to fire the toners to thereby form a conductive printed wire having a predetermined pattern on the surface of the glass plate.

Abstract: A color toner for electro printing, which comprises from 10 to 50 parts by mass of fine inorganic pigment particles, from 5 to 40 parts by mass of a heat decomposable binder resin having an acid value of at least 5, and from 40 to 85 parts by mass of glass frit, per 100 parts by mass of the total solid content of the toner.

Abstract: A method for producing a glass substrate for a magnetic disk by polishing a circular glass plate, which comprises a step of polishing the principal plane of the circular glass plate by using a slurry containing a CeO2 crystal powder, the CeO2 crystal powder being obtained in such a manner that a melt containing CeO2 is quenched to obtain an amorphous material, and the amorphous material is subjected to heat treatment to obtain a CeO2 crystals-precipitated amorphous material, which is subjected to acid treatment to separate and extract the CeO2 crystal powder from the CeO2 crystals-precipitated amorphous material.

Abstract: Toners having toner matrix particles having conductive fine particles, a heat decomposable binder resin and glass frit, and heat decomposable organic resin fine particles attached on the surface of the toner matrix particles. The heat decomposition temperature of the organic resin in the heat decomposable organic resin fine particles is lower than the heat decomposition temperature of the heat decomposable binder resin.

Abstract: To provide a process for producing a glass plate having an electric conductor pattern excellent in adhesion to the surface of the glass plate, whereby it is not required to have a screen ready for every model and adjustment to desired electric heating performance and antenna performance is easy, and a developer therefor. A developer for electronic printing, characterized in that the ratio of Ftc/Ftp is at least 2.5, where Ftc is the adhesive force acting between one toner particle containing conductive fine particles and one carrier, and Ftp is the adhesive force acting between one toner particle containing conductive fine particles and a photoconductor.

Abstract: It is an object of the present invention to provide a process for producing a glass plate provided with a ceramic color print, whereby a ceramic color print having a small color difference can be formed on a glass plate with good adhesion. A process for producing a glass plate provided with a ceramic color print, wherein a ceramic color print is formed on a glass plate, which comprises a step of forming a laminate having first and second layers laminated by printing on a glass plate, and a step of baking the glass plate having the laminate formed thereon, wherein the first layer is formed by electro printing by using a first ceramic color toner, the second layer is formed by electro printing by using a second ceramic color toner, and the first ceramic color toner has a number average particle size D50 which is larger than D50 of the second ceramic color toner.

Abstract: Provided is a process for producing a glass plate with a conductive printed wire, which does not require a screen plate for each model, facilitates adjustments for desired heat generation performance or antenna performance, has an excellent adhesion to a glass plate surface, and minimizes surface roughness. The process for producing a glass plate with a conductive printed wire is characterized in that a laminate comprising a layer obtained by electro printing a first conductive toner having a number standard average particle size (D50) of 10 ?m<D50?50 ?m and a layer obtained by electro printing a second conductive toner having a particle size (D50) of 5 ?m?D50?10 ?m is formed on a surface of a glass plate and the glass plate is heated to fire the toners to thereby form a conductive printed wire having a predetermined pattern on the surface of the glass plate.

Abstract: A color toner for electro printing, whereby a ceramic color print excellent in adhesion can be printed on a glass plate surface by a simple process without using a screen plate. The color toner for electro printing comprises toner matrix particles containing from 10 to 50 parts by mass of fine inorganic pigment particles, from 5 to 40 parts by mass of a heat decomposable binder resin having a disappearance temperature T100 of from 350 to 575° C., and from 40 to 85 parts by mass of glass frit, per 100 parts by mass of the total solid content of the toner matrix particles.