A method for producing a cellulose ether having a high viscosity while keeping the same degree of polymerization as that in the production of a shaped pulp without changing a raw material or production facility. More specifically, provided is a method for producing a cellulose ether including steps of: cutting or pulverizing pulp to obtain sheet-like, chip-like, or powdery cellulose pulp, wherein the pulp is formed in a form of roll whose surface layer on at least one of the circumferential side and the ends is removed, or in a form of bale whose surface layer on at least one side is removed; bringing the obtained cellulose pulp into contact with an alkali metal hydroxide solution to obtain alkali cellulose; reacting the alkali cellulose with an alkylating agent to obtain a reaction product mixture; and subjecting the reaction product mixture to purification to obtain the cellulose ether.

A method for producing a cellulose ether having a high viscosity while keeping the same degree of polymerization as that in the production of a shaped pulp without changing a raw material or production facility. More specifically, provided is a method for producing a cellulose ether including steps of: cutting or pulverizing pulp to obtain sheet-like, chip-like, or powdery cellulose pulp, wherein the pulp is formed in a form of roll whose surface layer on at least one of the circumferential side and the ends is removed, or in a form of bale whose surface layer on at least one side is removed; bringing the obtained cellulose pulp into contact with an alkali metal hydroxide solution to obtain alkali cellulose; reacting the alkali cellulose with an alkylating agent to obtain a reaction product mixture; and subjecting the reaction product mixture to purification to obtain the cellulose ether.

Pulps, cellulose ether products, and methods of making pulps are described.

Pulps, cellulose ether products, and methods of making pulps are described.

Nanoparticles including a cellulosic polymer and a hydrophobic material and methods for forming them.

The present invention provides novel hybrid polymers having unique physical properties. The hybrid polymers comprise a cellulose ether moiety, a linking group moiety, a spacer group moiety, and a lactam moiety. The present invention also provides compositions comprising the hybrid polymers and methods for preparing and using the hybrid polymers. In a first embodiment, the hybrid polymers have the structure:
A-(L.sub.1-S—(B).sub.k).sub.q
wherein A is derived from a cellulose ether moiety comprising a —OH group; L.sub.1 is a linking group moiety selected from the group consisting of urethanes, amides, esters, carbonates, and phosphate esters, or is derived from a moiety selected from the group consisting of anhydrides, cyclic ethers, and aziridines; S is a spacer group moiety, selected from the group consisting of straight- or branched-chain functionalized and unfunctionalized alkyl, cycloalkyl, alkenyl, and aryl groups, wherein any of the above groups may be with or without heteroatoms, or is a direct bond; and B is a lactam moiety; wherein k≥1 and q≥1. In a second embodiment, the hybrid polymers have the structure:
A-(L.sub.2-S—B).sub.y
wherein A is derived from a cellulose ether moiety comprising a —OH group; L.sub.2 is an ether linking group moiety; S is a spacer group moiety, selected from the group consisting of straight- or branched-chain functionalized and unfunctionalized alkyl, cycloalkyl, alkenyl, and aryl groups, wherein any of the above groups may be with or without heteroatoms, or is a direct bond; and B is a lactam moiety; wherein y≥1; with the proviso that when the cellulose ether moiety is hydroxyethyl cellulose, -(L.sub.2-S—B).sub.y is not derived from 1-(hydroxymethyl)-2-pyrrolidinone.

The present invention provides novel hybrid polymers having unique physical properties. The hybrid polymers comprise a cellulose ether moiety, a linking group moiety, a spacer group moiety, and a lactam moiety. The present invention also provides compositions comprising the hybrid polymers and methods for preparing and using the hybrid polymers. In a first embodiment, the hybrid polymers have the structure:
A-(L.sub.1-S—(B).sub.k).sub.q
wherein A is derived from a cellulose ether moiety comprising a —OH group; L.sub.1 is a linking group moiety selected from the group consisting of urethanes, amides, esters, carbonates, and phosphate esters, or is derived from a moiety selected from the group consisting of anhydrides, cyclic ethers, and aziridines; S is a spacer group moiety, selected from the group consisting of straight- or branched-chain functionalized and unfunctionalized alkyl, cycloalkyl, alkenyl, and aryl groups, wherein any of the above groups may be with or without heteroatoms, or is a direct bond; and B is a lactam moiety; wherein k≥1 and q≥1. In a second embodiment, the hybrid polymers have the structure:
A-(L.sub.2-S—B).sub.y
wherein A is derived from a cellulose ether moiety comprising a —OH group; L.sub.2 is an ether linking group moiety; S is a spacer group moiety, selected from the group consisting of straight- or branched-chain functionalized and unfunctionalized alkyl, cycloalkyl, alkenyl, and aryl groups, wherein any of the above groups may be with or without heteroatoms, or is a direct bond; and B is a lactam moiety; wherein y≥1; with the proviso that when the cellulose ether moiety is hydroxyethyl cellulose, -(L.sub.2-S—B).sub.y is not derived from 1-(hydroxymethyl)-2-pyrrolidinone.

Pulps, cellulose ether products, and methods of making pulps are described.

Pulps, cellulose ether products, and methods of making pulps are described.

The present invention is a method for producing a modified cellulose including the following step A: step A: introducing a cellulose raw material with a substituent having 6 or more carbon atoms to a group in which a hydrogen atom is removed from a hydroxyl group of a cellulose backbone, in the presence of water and a surfactant. The present invention relates to a method for producing a modified cellulose having a high affinity of an organic solvent, a resin or the like, and a hydrophobic medium, using a reaction system with low environmental loads and with prospects of reduction in production costs.