Provided an ultraviolet-sensing sheet that facilitates measurement of ultraviolet irradiance over a wide area, that is suitable in ultraviolet irradiance in a range from 1 to 1,000 mJ/cm.sup.2, a method for manufacturing such an ultraviolet-sensing sheet, and a method for sensing ultraviolet. The ultraviolet-sensing sheet has a change in reflection density D1 of 0.2 or more over a range of cumulative illuminance 1 mJ/cm.sup.2 or more and less than 10 mJ/cm.sup.2, a change in reflection density D2 of 0.2 or more over a range of cumulative illuminance 10 mJ/cm.sup.2 or more and less than 100 mJ/cm.sup.2, and a change in reflection density D3 of 0.2 or more over a range of cumulative illuminance 100 mJ/cm.sup.2 or more and 1,000 mJ/cm.sup.2 or less, as measured at a wavelength of 365 nm when the ultraviolet-sensing sheet is irradiated with a high-pressure mercury lamp.

Provided an ultraviolet-sensing sheet that facilitates measurement of ultraviolet irradiance over a wide area, that is suitable in ultraviolet irradiance in a range from 1 to 1,000 mJ/cm.sup.2, a method for manufacturing such an ultraviolet-sensing sheet, and a method for sensing ultraviolet. The ultraviolet-sensing sheet has a change in reflection density D1 of 0.2 or more over a range of cumulative illuminance 1 mJ/cm.sup.2 or more and less than 10 mJ/cm.sup.2, a change in reflection density D2 of 0.2 or more over a range of cumulative illuminance 10 mJ/cm.sup.2 or more and less than 100 mJ/cm.sup.2, and a change in reflection density D3 of 0.2 or more over a range of cumulative illuminance 100 mJ/cm.sup.2 or more and 1,000 mJ/cm.sup.2 or less, as measured at a wavelength of 365 nm when the ultraviolet-sensing sheet is irradiated with a high-pressure mercury lamp.

A device for detecting exposure to light includes: a photo-responsive layer including a photochromic material; a skin-mimicking cover layer covering a first side of the photo-responsive layer; and an adhesive layer configured to couple a second side of the photo-responsive layer opposite the first side to a surface.

A device for detecting exposure to light includes: a photo-responsive layer including a photochromic material; a skin-mimicking cover layer covering a first side of the photo-responsive layer; and an adhesive layer configured to couple a second side of the photo-responsive layer opposite the first side to a surface.

The invention relates to a photosensitive printing composition comprising a photocatalyst which exhibits a photocatalytic effect when exposed to UV and/or visible radiation, a colouring agent that exhibits a colour change in response to the photocatalytic effect, and a film forming agent. The composition has a viscosity suitable for printing. The invention further relates to a sun-exposure sensor comprising a photosensitive layer printed on a surface of a support, the photosensitive layer comprising a photocatalyst which exhibits a photocatalytic effect when exposed to UV and/or visible radiation, a colouring agent that exhibits a colour change in response to the photocatalytic effect, and a film forming agent.

The invention relates to a photosensitive printing composition comprising a photocatalyst which exhibits a photocatalytic effect when exposed to UV and/or visible radiation, a colouring agent that exhibits a colour change in response to the photocatalytic effect, and a film forming agent. The composition has a viscosity suitable for printing. The invention further relates to a sun-exposure sensor comprising a photosensitive layer printed on a surface of a support, the photosensitive layer comprising a photocatalyst which exhibits a photocatalytic effect when exposed to UV and/or visible radiation, a colouring agent that exhibits a colour change in response to the photocatalytic effect, and a film forming agent.

The present invention provides an inspection tool and an inspection method, with which it is possible to easily discriminate whether or not irradiation with light having a wavelength of 222 nm and light having a wavelength of 254 nm is performed even under sunlight. The inspection tool of the present invention includes a sensing portion and a reference portion, in which the sensing portion includes a sensing layer which senses at least light having a wavelength of 200 to 254 nm, the reference portion includes the sensing layer and a transparent layer, and the transparent layer satisfies a relationship of Expressions (1) and (2),

0%?TMA.sub.200 to 254<15.0%Expression (1)

50.0%<TMI.sub.360 to 800?100%Expression (2) in Expression (1), TMA.sub.200 to 254 represents a maximum transmittance of the transparent layer in a wavelength range of 200 to 254 nm. in Expression (2), TMI.sub.360 to 800 represents a minimum transmittance of the transparent layer in a wavelength range of 360 to 800 nm.

The present invention provides an inspection tool and an inspection method, with which it is possible to easily discriminate whether or not irradiation with light having a wavelength of 222 nm and light having a wavelength of 254 nm is performed even under sunlight. The inspection tool of the present invention includes a sensing portion and a reference portion, in which the sensing portion includes a sensing layer which senses at least light having a wavelength of 200 to 254 nm, the reference portion includes the sensing layer and a transparent layer, and the transparent layer satisfies a relationship of Expressions (1) and (2),

0%?TMA.sub.200 to 254<15.0%Expression (1)

50.0%<TMI.sub.360 to 800?100%Expression (2) in Expression (1), TMA.sub.200 to 254 represents a maximum transmittance of the transparent layer in a wavelength range of 200 to 254 nm. in Expression (2), TMI.sub.360 to 800 represents a minimum transmittance of the transparent layer in a wavelength range of 360 to 800 nm.

An external element of a timepiece including a frame made of a first material, the external element further including at least one light sensor.

An external element of a timepiece including a frame made of a first material, the external element further including at least one light sensor.