Invention Grant
- Patent Title: Chemically modified cellulose fiber and method for producing the same
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Application No.: US16620986Application Date: 2018-05-30
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Publication No.: US11459407B2Publication Date: 2022-10-04
- Inventor: Yuka Kitano , Masayuki Hashimoto
- Applicant: DAI-ICHI KOGYO SEIYAKU CO., LTD.
- Applicant Address: JP Kyoto
- Assignee: DAI-ICHI KOGYO SEIYAKU CO., LTD.
- Current Assignee: DAI-ICHI KOGYO SEIYAKU CO., LTD.
- Current Assignee Address: JP Kyoto
- Agency: Oblon, McClelland, Maier & Neustadt, L.L.P.
- Priority: JPJP2017-127903 20170629
- International Application: PCT/JP2018/020727 WO 20180530
- International Announcement: WO2019/003774 WO 20190103
- Main IPC: C08B5/14
- IPC: C08B5/14 ; D01F2/28
Abstract:
A sulfated cellulose fiber having a cellulose I crystal structure is provided.
A chemically modified cellulose fiber which has a cellulose I crystal and in which some hydroxyl groups of cellulose are substituted with a substituent represented by formula (1). An amount of the substituent introduced is 0.1 mmol to 3.0 mmol per 1 g of the chemically modified cellulose fiber, and an average degree of polymerization is 350 or more. (In formula (1), M represents a monovalent to trivalent cation.) In the production of the chemically modified cellulose fiber, a cellulose fiber is treated with sulfamic acid while maintaining a cellulose fiber shape to allow sulfamic acid and a cellulose fine fiber which is a constituent of the cellulose fiber to react with each other.
A chemically modified cellulose fiber which has a cellulose I crystal and in which some hydroxyl groups of cellulose are substituted with a substituent represented by formula (1). An amount of the substituent introduced is 0.1 mmol to 3.0 mmol per 1 g of the chemically modified cellulose fiber, and an average degree of polymerization is 350 or more. (In formula (1), M represents a monovalent to trivalent cation.) In the production of the chemically modified cellulose fiber, a cellulose fiber is treated with sulfamic acid while maintaining a cellulose fiber shape to allow sulfamic acid and a cellulose fine fiber which is a constituent of the cellulose fiber to react with each other.
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