Crosslinking fluids and methods configured for delaying gel crosslinking of the crosslinking fluid are provided. The crosslinking fluids and methods comprise mixtures of at least one crosslinking polymer, at least one crosslinker configured for crosslinking the at least one crosslinking polymer, at least one crosslink delay trigger configured for initiating crosslinking at a predetermined pH value and comprising at least one low reactivity magnesium oxide, and polar protic solvent. The at least one low reactivity magnesium oxide is produced by calcination of magnesium carbonate ore or magnesium hydroxide ore at a calcining temperature of at least 1,000° C.

An adhesive composition for use in debonding with light irradiation, which composition can achieve debonding through irradiation with light, characterized in that the adhesive composition contains an adhesive component (S) and a light-absorbing organic compound (X); and the light-absorbing organic compound (X) contains, in the molecule thereof, one or more aromatic rings, one or more rings each containing a heteroatom forming the ring, and one or more groups selected from among a carbonyl group and a thiocarbonyl group.

An adhesive composition for use in debonding with light irradiation, which composition can achieve debonding through irradiation with light, characterized in that the adhesive composition contains an adhesive component (S) and a light-absorbing organic compound (X); and the light-absorbing organic compound (X) contains, in the molecule thereof, one or more aromatic rings, one or more rings each containing a heteroatom forming the ring, and one or more groups selected from among a carbonyl group and a thiocarbonyl group.

A magnetic resin composition uses, as magnetic particles (B), scale-like particles that are formed of an Fe—Si—Al alloy, and has a mass ratio of a thermoplastic resin (A) that has a melting point of from 100° C. to 400° C. to the Fe—Si—Al alloy of from 10/90 to 15/85; and a cross-sectional surface (52) in the thickness direction of a sheet (50) that is formed from this magnetic resin composition (1) satisfies the conditions (1) and (2) described below. (1) The total area of the magnetic particles (B) subjected to image processing is from 40% to 65% of the area of the image processing region. (2) The number of the magnetic particles (B) subjected to image processing is from 200 to 500.

A magnetic resin composition uses, as magnetic particles (B), scale-like particles that are formed of an Fe—Si—Al alloy, and has a mass ratio of a thermoplastic resin (A) that has a melting point of from 100° C. to 400° C. to the Fe—Si—Al alloy of from 10/90 to 15/85; and a cross-sectional surface (52) in the thickness direction of a sheet (50) that is formed from this magnetic resin composition (1) satisfies the conditions (1) and (2) described below. (1) The total area of the magnetic particles (B) subjected to image processing is from 40% to 65% of the area of the image processing region. (2) The number of the magnetic particles (B) subjected to image processing is from 200 to 500.

A liquid crystal display panel and a liquid crystal display device are provided. The liquid crystal display panel comprises a liquid crystal layer containing reactive monomers, a backlight layer disposed on a side of the liquid crystal layer and used to emit backlight to the liquid crystal layer, and a light conversion film layer disposed between the backlight layer and the liquid crystal layer and used to absorb ultraviolet light in the backlight. The present disclosure can improve the display quality of liquid crystal display panels by the above method.

A liquid crystal display panel and a liquid crystal display device are provided. The liquid crystal display panel comprises a liquid crystal layer containing reactive monomers, a backlight layer disposed on a side of the liquid crystal layer and used to emit backlight to the liquid crystal layer, and a light conversion film layer disposed between the backlight layer and the liquid crystal layer and used to absorb ultraviolet light in the backlight. The present disclosure can improve the display quality of liquid crystal display panels by the above method.

A liquid crystal display panel and a liquid crystal display device are provided. The liquid crystal display panel comprises a liquid crystal layer containing reactive monomers, a backlight layer disposed on a side of the liquid crystal layer and used to emit backlight to the liquid crystal layer, and a light conversion film layer disposed between the backlight layer and the liquid crystal layer and used to absorb ultraviolet light in the backlight. The present disclosure can improve the display quality of liquid crystal display panels by the above method.

A liquid crystal display panel and a liquid crystal display device are provided. The liquid crystal display panel comprises a liquid crystal layer containing reactive monomers, a backlight layer disposed on a side of the liquid crystal layer and used to emit backlight to the liquid crystal layer, and a light conversion film layer disposed between the backlight layer and the liquid crystal layer and used to absorb ultraviolet light in the backlight. The present disclosure can improve the display quality of liquid crystal display panels by the above method.

The present disclosure is directed to stress-responsive compositions comprising (1) at least one (co)polymer comprising at least one mechanophore comprising at least one thiocarbonylthio functional group or derivative thereof and (2) at least one compound comprising at least one functional group capable of reacting with a free radical, The present disclosure is also directed to articles, coatings, and 3D printing binders comprising such stress-responsive compositions, as well as to processes of imparting the abilities of forming and maintaining protective barriers and mechanical self-healing to such articles, coatings, and 3D printing binders by incorporating such stress-responsive compositions therein.