Provided is a binder composition for a secondary battery with which excellent close adherence is obtained between a substrate and a layer obtained using the binder composition and that can result in a secondary battery having good cycle characteristics. The binder composition contains a polymer and a solvent, wherein the polymer is core-shell particles including a core portion formed of a polymer (a1) and a shell portion formed of a polymer (a2). The polymer (a2) includes specific monomer units with specific amounts, wherein at least one type of monomer unit selected from a monofunctional unsaturated carboxylic acid monomer unit and a monofunctional unsaturated sulfonic acid monomer unit is not less than 0.1 mol and not more than 15,000 mol relative to 1 mol of a monomer unit of a monomer including at least two vinyl functional groups.

To provide a curable composition for imprinting whereby a cured product layer for a replica mold, which is excellent in the adhesion to a mold substrate and the release property from a cured product of a transfer object material when used in an imprinting method is formed; a replica mold for imprinting, using the curable composition for imprinting; its production process and a process for producing an article having a fine pattern on its surface by using the replica mold. A curable composition for imprinting, which comprises a fluorinated polymer comprising structural units (a) based on CH.sub.2═C(R.sup.1)C(O)OR.sup.2R.sup.f (R.sup.1: a hydrogen atom, a methyl group or the like, R.sup.2: a bivalent linking group having no fluorine atom and R.sup.f: a C.sub.2-6 fluoroalkyl group or the like) and structural units (b) having a cationic polymerizable reactive group having an oxygen atom, and a photo-acid generator, wherein the proportion of the fluorinated polymer is from 11 to 89 mass % in 100 mass % of the curable composition for imprinting.

To provide a curable composition for imprinting whereby a cured product layer for a replica mold, which is excellent in the adhesion to a mold substrate and the release property from a cured product of a transfer object material when used in an imprinting method is formed; a replica mold for imprinting, using the curable composition for imprinting; its production process and a process for producing an article having a fine pattern on its surface by using the replica mold. A curable composition for imprinting, which comprises a fluorinated polymer comprising structural units (a) based on CH.sub.2═C(R.sup.1)C(O)OR.sup.2R.sup.f (R.sup.1: a hydrogen atom, a methyl group or the like, R.sup.2: a bivalent linking group having no fluorine atom and R.sup.f: a C.sub.2-6 fluoroalkyl group or the like) and structural units (b) having a cationic polymerizable reactive group having an oxygen atom, and a photo-acid generator, wherein the proportion of the fluorinated polymer is from 11 to 89 mass % in 100 mass % of the curable composition for imprinting.

Provided are an anti-reflective film including a low-refractive layer having mechanical properties such as high abrasion resistance and scratch resistance, etc., and excellent optical properties, and a hard coating layer, a polarizing plate including the same, and a display device including the same.

Provided are an anti-reflective film including a low-refractive layer having mechanical properties such as high abrasion resistance and scratch resistance, etc., and excellent optical properties, and a hard coating layer, a polarizing plate including the same, and a display device including the same.

An optical fiber rod (30) according to the present invention includes a center region (35), an outer region (31) formed around the center region (35), and an intermediate region (33) formed between the center region (35) and the outer region (31), and satisfies nA>nB>nC where nA is the refractive index of a material A produced by polymerization of a monomer ma, nB is the refractive index of a material B produced by polymerization of a monomer mb, and nC is the refractive index of a material C produced by polymerization of a monomer mc. The center region (35) is made of a material produced by polymerization of a monomer mixture containing the monomer ma, the outer region (31) is made of a material produced by polymerization of a monomer mixture containing the monomer mc, and the intermediate region (33) is made of a material produced by polymerization of a monomer mixture containing the monomer mb. The refractive index decreases in the order: the center region (35)>the intermediate region (33)>the outer region (31).

ABA type block copolymers as a new class of temperature sensing polymers with tunable, high temperature coefficient of resistance (TCR). A sensor includes a heater, a thermal insulator between two thermometer layers, the heater generating a thermal gradient within the thermal insulator. The thermometers give an indirect measurement of fluid flow around the sensor, based on their temperature readings. The thermometers are flexible layers including ABA block polymers.

ABA type block copolymers as a new class of temperature sensing polymers with tunable, high temperature coefficient of resistance (TCR). A sensor includes a heater, a thermal insulator between two thermometer layers, the heater generating a thermal gradient within the thermal insulator. The thermometers give an indirect measurement of fluid flow around the sensor, based on their temperature readings. The thermometers are flexible layers including ABA block polymers.

The present invention relates to: a method of producing a structure having a recessed pattern; a resin composition; a method of forming an electroconductive film; an electronic circuit; and an electronic device. The method of producing a structure having a recessed pattern includes the following steps (i) and (ii), and the recessed pattern has a film thickness that is thinner by 5% to less than 90% with respect to that of a coating film obtained in the step (i): (i) the step of forming a coating film on a non-flat surface of a structure using a resin composition which includes an acid-dissociable group-containing polymer and an acid generator; and (ii) the step of forming a recess by subjecting a prescribed part of a portion of the coating film to irradiation with radiation.

The present invention relates to: a method of producing a structure having a recessed pattern; a resin composition; a method of forming an electroconductive film; an electronic circuit; and an electronic device. The method of producing a structure having a recessed pattern includes the following steps (i) and (ii), and the recessed pattern has a film thickness that is thinner by 5% to less than 90% with respect to that of a coating film obtained in the step (i): (i) the step of forming a coating film on a non-flat surface of a structure using a resin composition which includes an acid-dissociable group-containing polymer and an acid generator; and (ii) the step of forming a recess by subjecting a prescribed part of a portion of the coating film to irradiation with radiation.