Three-dimensional alignment of cellulose II microcrystals under a strong magnetic field

In this study, enzymatic synthesis was conducted using cellodextrin phosphorylase (CDP), sucrose phosphorylase (SP), and sucrose with 1-azido-1-deoxy-β-glucoside (β-glucosyl azide) as the acceptor in phosphate buffer at pH 7.0. This yielded cellulose oligomers (degree of polymerization, DP ≈ 10) wit...

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Published in	Cellulose (London) Vol. 28; no. 11; pp. 6757 - 6765
Main Authors	Wada, Masahisa, Wakiya, Sayuri, Kobayashi, Kayoko, Kimura, Satoshi, Kitaoka, Motomitsu, Kusumi, Ryosuke, Kimura, Fumiko, Kimura, Tsunehisa
Format	Journal Article
Language	English
Published	Dordrecht Springer Netherlands 01.07.2021 Springer Nature B.V
Subjects	azides Bioorganic Chemistry Cellulose Ceramics Chemistry Chemistry and Materials Science Composites crystallization Crystals Degree of polymerization Glass Magnetic fields Microcrystals Micrometers Natural Materials Oligomers Organic Chemistry Original Research phosphates phosphorylase Phosphorylases Physical Chemistry Polymer Sciences polymerization Recrystallization Sucrose sucrose phosphorylase Sustainable Development Synchrotron radiation Synchrotrons X-ray diffraction Cellulose II Transmission electron microscopy Synchrotron X-ray diffraction Cellulose oligomer crystal Magnetic field
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ISSN	0969-0239 1572-882X
DOI	10.1007/s10570-021-03954-z

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Abstract	In this study, enzymatic synthesis was conducted using cellodextrin phosphorylase (CDP), sucrose phosphorylase (SP), and sucrose with 1-azido-1-deoxy-β-glucoside (β-glucosyl azide) as the acceptor in phosphate buffer at pH 7.0. This yielded cellulose oligomers (degree of polymerization, DP ≈ 10) with azido groups at the reducing end as a white precipitate. A suspension of cellulose microcrystals with exposed azido groups on the surface was obtained via dissolution and recrystallization of the synthetic products dispersed in water by heating. The flat, ribbon-like cellulose microcrystals were a crystalline form of cellulose II and were several micrometers in length and several hundred nanometers in width. The microcrystals were 5.1–5.2 nm thick, which is equivalent to the chain length of cellulose oligomers with DP ≈ 10. When the cellulose II microcrystal suspensions were dried under a horizontal static magnetic field of 8 T, oriented films were obtained, wherein the microcrystals were aligned three-dimensionally. Synchrotron X-ray diffraction studies of the films revealed that the easy and intermediate axes ( χ 1 and χ 2 , respectively) of the cellulose II crystals corresponded approximately to the [1 1 0] and [1 1 ¯ 0] directions, respectively.
AbstractList	In this study, enzymatic synthesis was conducted using cellodextrin phosphorylase (CDP), sucrose phosphorylase (SP), and sucrose with 1-azido-1-deoxy-β-glucoside (β-glucosyl azide) as the acceptor in phosphate buffer at pH 7.0. This yielded cellulose oligomers (degree of polymerization, DP ≈ 10) with azido groups at the reducing end as a white precipitate. A suspension of cellulose microcrystals with exposed azido groups on the surface was obtained via dissolution and recrystallization of the synthetic products dispersed in water by heating. The flat, ribbon-like cellulose microcrystals were a crystalline form of cellulose II and were several micrometers in length and several hundred nanometers in width. The microcrystals were 5.1–5.2 nm thick, which is equivalent to the chain length of cellulose oligomers with DP ≈ 10. When the cellulose II microcrystal suspensions were dried under a horizontal static magnetic field of 8 T, oriented films were obtained, wherein the microcrystals were aligned three-dimensionally. Synchrotron X-ray diffraction studies of the films revealed that the easy and intermediate axes (χ1 and χ2, respectively) of the cellulose II crystals corresponded approximately to the [1 1 0] and [1 1¯ 0] directions, respectively. In this study, enzymatic synthesis was conducted using cellodextrin phosphorylase (CDP), sucrose phosphorylase (SP), and sucrose with 1-azido-1-deoxy-β-glucoside (β-glucosyl azide) as the acceptor in phosphate buffer at pH 7.0. This yielded cellulose oligomers (degree of polymerization, DP ≈ 10) with azido groups at the reducing end as a white precipitate. A suspension of cellulose microcrystals with exposed azido groups on the surface was obtained via dissolution and recrystallization of the synthetic products dispersed in water by heating. The flat, ribbon-like cellulose microcrystals were a crystalline form of cellulose II and were several micrometers in length and several hundred nanometers in width. The microcrystals were 5.1–5.2 nm thick, which is equivalent to the chain length of cellulose oligomers with DP ≈ 10. When the cellulose II microcrystal suspensions were dried under a horizontal static magnetic field of 8 T, oriented films were obtained, wherein the microcrystals were aligned three-dimensionally. Synchrotron X-ray diffraction studies of the films revealed that the easy and intermediate axes (χ₁ and χ₂, respectively) of the cellulose II crystals corresponded approximately to the [1 1 0] and [1 [Formula: see text] 0] directions, respectively. In this study, enzymatic synthesis was conducted using cellodextrin phosphorylase (CDP), sucrose phosphorylase (SP), and sucrose with 1-azido-1-deoxy-β-glucoside (β-glucosyl azide) as the acceptor in phosphate buffer at pH 7.0. This yielded cellulose oligomers (degree of polymerization, DP ≈ 10) with azido groups at the reducing end as a white precipitate. A suspension of cellulose microcrystals with exposed azido groups on the surface was obtained via dissolution and recrystallization of the synthetic products dispersed in water by heating. The flat, ribbon-like cellulose microcrystals were a crystalline form of cellulose II and were several micrometers in length and several hundred nanometers in width. The microcrystals were 5.1–5.2 nm thick, which is equivalent to the chain length of cellulose oligomers with DP ≈ 10. When the cellulose II microcrystal suspensions were dried under a horizontal static magnetic field of 8 T, oriented films were obtained, wherein the microcrystals were aligned three-dimensionally. Synchrotron X-ray diffraction studies of the films revealed that the easy and intermediate axes ( χ 1 and χ 2 , respectively) of the cellulose II crystals corresponded approximately to the [1 1 0] and [1 1 ¯ 0] directions, respectively.
Author	Kimura, Satoshi Kimura, Tsunehisa Wada, Masahisa Wakiya, Sayuri Kitaoka, Motomitsu Kusumi, Ryosuke Kimura, Fumiko Kobayashi, Kayoko
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Cites_doi	10.1021/la0475728 10.1007/s10570-019-02896-x 10.1016/S0079-6700(01)00026-0 10.1002/marc.200300268 10.1039/DF9511100158 10.1111/j.1432-1033.1997.00262.x 10.1080/02678299408036525 10.1021/ma401788c 10.1002/anie.201001273 10.1002/chem.202003604 10.1088/1742-6596/156/1/012002 10.1021/bm300746r 10.1021/ma970503y 10.1021/la050182g 10.1038/184632a0 10.1016/0922-338X(94)90226-7 10.1016/j.carres.2009.10.002 10.1021/bm005612q 10.1007/BF02154044 10.1016/S0021-9258(18)94451-0 10.1039/C5CC04378F 10.1021/ma00042a032 10.1021/la0600402 10.1039/c7ce01305a 10.1038/174076a 10.1002/polb.21479 10.1021/cg901321h 10.1007/s00339-007-3882-3 10.1016/0008-6215(95)00022-L 10.1088/0953-2048/12/10/303 10.1021/cr100285v 10.1021/la9610462 10.1021/acs.macromol.5b02201 10.5458/jag.49.1 10.1021/ja9916254 10.1109/tmag.1977.1059528 10.1039/d0ce00795a 10.3891/acta.chem.scand.03-0649
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Snippet	In this study, enzymatic synthesis was conducted using cellodextrin phosphorylase (CDP), sucrose phosphorylase (SP), and sucrose with...
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SubjectTerms	azides Bioorganic Chemistry Cellulose Ceramics Chemistry Chemistry and Materials Science Composites crystallization Crystals Degree of polymerization Glass Magnetic fields Microcrystals Micrometers Natural Materials Oligomers Organic Chemistry Original Research phosphates phosphorylase Phosphorylases Physical Chemistry Polymer Sciences polymerization Recrystallization Sucrose sucrose phosphorylase Sustainable Development Synchrotron radiation Synchrotrons X-ray diffraction
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Title	Three-dimensional alignment of cellulose II microcrystals under a strong magnetic field
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