An object of the present disclosure is to provide, for example, a fluoropolymer electret material with hardness. The present disclosure relates to an electret material comprising a fluoropolymer, wherein the fluoropolymer comprises, as a main component, a monomer unit represented by formula (1):

##STR00001##

wherein R.sup.1 to R.sup.4 are each independently a fluorine atom, a fluoroalkyl group, or a fluoroalkoxy group; and the fluoropolymer has a mass average molecular weight of 1 million or more and 5 million or less, or 5000 or more and less than 20000.

To provide a monomer composition in which the solubility of the polymerization inhibitor in the cyclic monomer is good, the stability of the cyclic monomer during storage is good, and the cyclic monomer and the polymerization inhibitor are easily separated by distillation; and a method for producing a high molecular weight fluorinated polymer from the monomer composition. A monomer composition which comprises a specific cyclic monomer and a polymerization inhibitor, wherein the polymerization inhibitor is a polymerization inhibitor which satisfies (a) it is a 6-membered unsaturated cyclic hydrocarbon having from 1 to 4 substituents, (b) it has, as the substituent, at least one type selected from the group consisting of a t-butyl group, a methyl group, an isopropenyl group, an oxo group and a hydroxy group, (c) in a case where it has an oxo group as one type of the substituent, it has, as the substituent other than the oxo group, either one or both of a t-butyl group and a methyl group, and (d) in a case where it has a hydroxy group as the substituent, the number of the hydroxy group is only one.

Embodiments described herein relate to flat optical devices and encapsulation materials for flat optical devices. One or more embodiments include a substrate having a first arrangement of a first plurality of pillars formed thereon. The first arrangement of the first plurality of pillars includes pillars having a height h and a lateral distance d. The first arrangement of the first plurality of pillars includes a gap g corresponding to a distance between adjacent pillars of the first plurality of pillars. An aspect ratio of the gap g to the height h is between about 1:1 and about 1:20. A first adhesion-promoting material is disposed over the first arrangement of the first plurality of pillars. A first encapsulation layer is disposed over the first adhesion-promoting material. The first encapsulation layer fills the gap g between adjacent pillars of the first plurality of pillars. The first encapsulation layer includes a fluoropolymer.

A process, a composition, and an article of manufacture are disclosed. The process includes generating a cyclic monoterpene derivative. The generating includes oxidizing a cyclic monoterpene to generate a ketone derivative and oxidizing the ketone derivative to form a lactone derivative. The composition and the article of manufacture include a polymer having monomer repeat units derived from a lactone derivative of a cyclic monoterpene.

A process, a composition, and an article of manufacture are disclosed. The process includes generating a cyclic monoterpene derivative. The generating includes oxidizing a cyclic monoterpene to generate a ketone derivative and oxidizing the ketone derivative to form a lactone derivative. The composition and the article of manufacture include a polymer having monomer repeat units derived from a lactone derivative of a cyclic monoterpene.

To provide a monomer composition in which the solubility of the polymerization inhibitor in the cyclic monomer is good, the stability of the cyclic monomer during storage is good, and the cyclic monomer and the polymerization inhibitor are easily separated by distillation; and a method for producing a high molecular weight fluorinated polymer from the monomer composition.

A monomer composition which comprises a specific cyclic monomer and a polymerization inhibitor, wherein the polymerization inhibitor is a polymerization inhibitor which satisfies (a) it is a 6-membered unsaturated cyclic hydrocarbon having from 1 to 4 substituents, (b) it has, as the substituent, at least one type selected from the group consisting of a t-butyl group, a methyl group, an isopropenyl group, an oxo group and a hydroxy group, (c) in a case where it has an oxo group as one type of the substituent, it has, as the substituent other than the oxo group, either one or both of a t-butyl group and a methyl group, and (d) in a case where it has a hydroxy group as the substituent, the number of the hydroxy group is only one.

An optical film including a polymer including a repeating unit A including a repeating unit represented by the following Chemical Formulas 1 to 3, or a combination thereof; and a repeating unit B derived from a monomer having an unsaturated bond copolymerizable with the repeating unit A, wherein the optical film has a short wavelength dispersion of an in-plane phase-difference value (R.sub.e) (450 nm/550 nm) ranging from about 0.81 to about 1.20, and a long wavelength dispersion of an in-plane phase-difference value (R.sub.e) (650 nm/550 nm) ranging from about 0.90 to about 1.18: ##STR00001##
wherein, in Chemical Formulas 1 to 3, the variables R.sup.1 to R.sup.21 are defined herein.

An optical film including a polymer including a repeating unit A including a repeating unit represented by the following Chemical Formulas 1 to 3, or a combination thereof; and a repeating unit B derived from a monomer having an unsaturated bond copolymerizable with the repeating unit A, wherein the optical film has a short wavelength dispersion of an in-plane phase-difference value (R.sub.e) (450 nm/550 nm) ranging from about 0.81 to about 1.20, and a long wavelength dispersion of an in-plane phase-difference value (R.sub.e) (650 nm/550 nm) ranging from about 0.90 to about 1.18: ##STR00001##
wherein, in Chemical Formulas 1 to 3, the variables R.sup.1 to R.sup.21 are defined herein.

A process, a composition, and an article of manufacture are disclosed. The process includes generating a cyclic monoterpene derivative. The generating includes oxidizing a cyclic monoterpene to generate a ketone derivative and oxidizing the ketone derivative to form a lactone derivative. The composition and the article of manufacture include a polymer having monomer repeat units derived from a lactone derivative of a cyclic monoterpene.

A process, a composition, and an article of manufacture are disclosed. The process includes generating a cyclic monoterpene derivative. The generating includes oxidizing a cyclic monoterpene to generate a ketone derivative and oxidizing the ketone derivative to form a lactone derivative. The composition and the article of manufacture include a polymer having monomer repeat units derived from a lactone derivative of a cyclic monoterpene.