A positive photosensitive resin composition, a photosensitive resin layer, and an electronic device, the composition including an alkali soluble resin; a photosensitive diazoquinone compound; a dissolution controlling agent represented by Chemical Formula 1; a cross-linking agent represented by Chemical Formula 2; and a solvent, wherein the dissolution controlling agent and the cross-linking agent are included in a weight ratio of about 1:1 to about 1:2:

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A positive photosensitive resin composition, a photosensitive resin layer, and an electronic device, the composition including an alkali soluble resin; a photosensitive diazoquinone compound; a dissolution controlling agent represented by Chemical Formula 1; a cross-linking agent represented by Chemical Formula 2; and a solvent, wherein the dissolution controlling agent and the cross-linking agent are included in a weight ratio of about 1:1 to about 1:2:

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A photochromic mixture including a photochromic material and a thermosetting transparent polymer material, which are uniformly mixed and dissolved in a solvent, is provided. A formation method of a photochromic device based on the photochromic mixture and a light-transmissive head-mounted display device with the photochromic device are further provided. In the photochromic mixture, the change in the structure of the photochromic material under UV light and room light causes a significant change in its absorption spectrum so the color changes. This property is utilized for the benefits: First, the contrast of the head-mounted display device under strong light irradiation is improved. The display effect is enhanced. Second, the damage to human eye by UV light at the natural environment is reduced. Third, under the same optical requirement, the required energy consumption of self-light-emitting elements in the light-transmissive head-mounted display device is correspondingly reduced. It's more energy saving and environmental protecting.

A photochromic mixture including a photochromic material and a thermosetting transparent polymer material, which are uniformly mixed and dissolved in a solvent, is provided. A formation method of a photochromic device based on the photochromic mixture and a light-transmissive head-mounted display device with the photochromic device are further provided. In the photochromic mixture, the change in the structure of the photochromic material under UV light and room light causes a significant change in its absorption spectrum so the color changes. This property is utilized for the benefits: First, the contrast of the head-mounted display device under strong light irradiation is improved. The display effect is enhanced. Second, the damage to human eye by UV light at the natural environment is reduced. Third, under the same optical requirement, the required energy consumption of self-light-emitting elements in the light-transmissive head-mounted display device is correspondingly reduced. It's more energy saving and environmental protecting.

The present disclosure directs to the technical field of epoxy resins, and particularly relates to an antichlor and a preparation method as well as an application thereof, for solving problems in existing chlorine removal methods that separation efficiency of an epoxy resin containing hydrolyzable chlorine is low, lots of energy needs to be consumed in the separation process, molecular distillation equipment is expensive and requirements on vacuum degree and material tightness are high. The antichlor is a polymer containing keto-carbonyl groups. The preparation method includes: adding a mixed solution of styrene and ketene into a reactor containing an organic solvent; adding an initiator, a coupling agent and an anti-gelling agent into the reactor under an atmosphere of shielding gas; controlling the styrene and ketene to perform a polymerization reaction under first preset reaction conditions; and removing the organic solvent after completion of the polymerization reaction, thereby obtaining the antichlor.

A compound includes a polysaccharide moiety and one or more chelating agents. The one or more chelating agents are covalently bonded to the polysaccharide moiety. The polysaccharide moiety can include a glycosaminoglycan moiety, such as a hyaluronic acid polymer or a sulfated glycosaminoglycan moiety. The compound can be used to treat or prevent a disease or disorder in a patient with a metal implant. The compound reduces a concentration of metal particulates or metal ions in the subject.

The present invention relates to new aqueous curable binder compositions comprising a carbohydrate compound, a first cross linker and a second cross linker different from the first capable of undergoing radical polymerization and possibly a free radical initiator.

A method enabling the quantitative analysis of acrylic acid in an acrylic adhesive resin includes: measuring, by means of a moisture analyzer for solid samples (MASS), moisture content generated through a ring forming reaction, in a high-temperature environment, of an acrylic polymer having a carboxyl group; and analyzing the acrylic acid content on the basis of the measured moisture content and the amount of the sample that is used.

A photocurable composition which decreases a mold releasing force is provided. The photocurable composition is a photocurable composition which is cured using light while being in contact with a mold having a surface in which a concavo-convex pattern is formed so as to manufacture a film having a concavo-convex pattern and which includes a polymerizable compound, a photopolymerization initiator, and a photosensitive gas generating agent having a photostimulation responsive portion. The photosensitive gas generating agent has a repeating structure containing at least one alkylene oxide chain and generates a gas from the photostimulation responsive portion by light irradiation.

The invention is an adherend recovery method capable of recovering adherends such as cells no matter the types of adherends. An adherend recovery method for recovering an adherend from a support includes exposing a stack disposed on the support, the stack including a photosensitive gas generation layer, an adhesive layer and the adherend in this order on the support, generating a gas from the photosensitive gas generation layer by the exposure to separate the support and the stack from each other by the action of the gas, and recovering the adherend from the support by recovering the stack separated.