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NTIS 바로가기材料 = Journal of the Society of Materials Science, Japan, v.58 no.4, 2009년, pp.297 - 303
巽 大輔 (九州大学) , 岡崎 美緒 (大学) , 舩山 ますみ (院農学) , 中田 皓介 (研) , 三原 一郎 (究院森林資源科学) , 松本 孝芳 (部門および九州大学)
Cellulose derived from a kind of algae, Spirogyra sp., was found to have cellulose Iα rich structure by the structural analysis using FT-IR and solid state NMR measurements. The cellulose from the algae was hard to dissolve in the typical cellulose solvent, LiCl/amide system. However, a new te...
1) T. Matsumoto, D. Tatsumi, N. Tamai and T. Takaki, “Solution properties of celluloses from different biological origins in LiCl·MAc”, Cellulose, Vol.8, pp.275-282 (2001).
Tamai, Nobutake, Aono, Hajime, Tatsumi, Daisuke, Matsumoto, Takayoshi. Differences in Rheological Properties of Solutions of Plant and Bacterial Cellulose in LiCl/N,N-Dimethylacetamide. 日本レオロジ-學會誌 = Journal of the Society of Rheology, Japan, vol.31, no.3, 119-130.
Tamai, N., Tatsumi, D., Matsumoto, T.. Rheological Properties and Molecular Structure of Tunicate Cellulose in LiCl/1,3-Dimethyl-2-imidazolidinone. Biomacromolecules, vol.5, no.2, 422-432.
ATALLA, RAJAI H., VANDERHART, DAVID L.. Native Cellulose: A Composite of Two Distinct Crystalline Forms. Science, vol.223, no.4633, 283-285.
5) D. L. VanderHart and R. H. Atalla, “Studies of microstructure in native celluloses using solid state 13 C NMR”, Macromolecules, Vol.17, pp.1465-1972 (1984).
6) F. Horii, A. Hirai and R. Kitamaru, “CP/MAS 13 C NMR spectra of the crystalline components of native celluloses”, Macromolecules, Vol.20, pp.2117-2120 (1987).
7) J. Sugiyama, R. Vuong and H. Chanzy, “Electron diffraction study of the two crystalline phases occurring in native celluloses from an agal cell wall”, Macromolecules, Vol.24, pp.4168-4175 (1991).
8) H. Yamamoto, F. Horii and H. Odani, “Structural changes of native cellulose crystals induced by annealing in aqueous alkaline and acidic solutions at high temperatures”, Macromolecules, Vol.22, pp.4139-4132 (1989).
9) M. Wada, T. Okano and J. Sugiyama, “Synchrotron-radiated X-ray and neutron diffraction study of native cellulose”, Cellulose, Vol.4, pp.221-232 (1997).
10.2115/fiber.8.445 10) R. Imamura, “Mokuzai hemicellulose ni kansuru kenkyu 1 Xylan suiyoueki no koushitsu-sei”, Sen'i Gakkaishi, Vol.8, pp.445-448 (1952).
Garcia, Rosangela B., Ganter, Joana L.M.S., Carvalho, Rosiane R.. Solution properties of D-xylans from corn cobs. European polymer journal, vol.36, no.4, 783-787.
10.1002/1521-3927(20000601)21:9<542::AID-MARC542>3.0.CO;2-7
Tatsumi, D., Kourogi, H., Chen, B., Matsumoto, T.. Effect of natural additives on the rheological properties of cellulose fiber disperse systems. Colloids and surfaces. A, Physicochemical and engineering aspects, vol.316, no.1, 151-158.
14) S. Y. Lin and C. W. Dence, “Methods in lignin chemistry”, (1992) Springer-Verlag.
Dong, Daojie, Fricke, Arthur L.. Investigation of optical effect of lignin solution and determination of M̄w of kraft lignin by LALLS. Journal of applied polymer science, vol.50, no.7, 1131-1140.
Dong, Daojie, Fricke, Arthur L.. Intrinsic viscosity and the molecular weight of kraft lignin. Polymer, vol.36, no.10, 2075-2078.
17) K. Nishizawa and M. Chihara, “Methods in phycological studies”, pp.602-606 (1979) Kyoritsu Shuppan.
18) M. Horio and R. Imamura, “Crystallographic study of xylan from wood”, Journal of Polymer Science, Part A, Vol.2, pp.627-644 (1964).
19) C. Tokoh, K. Takabe, J. Sugiyama and M. Fujita, “Cellulose synthesized by Acetobacter xylinum in the presence of plant cell wall polysaccharides”, Cellulose, Vol.9, pp.65-74 (2002).
20) D. Tatsumi Y. Tainosho and T. Matsumoto, “Analysis of the surface structure of cellulose fibers using atomic force microscopy and small-angle x-ray scattering”, Journal of the Society of Materials, Japan, Vol.51, pp.1295-1298 (2002).
Ishii, D., Tatsumi, D., Matsumoto, T.. Effect of Solvent Exchange on the Solid Structure and Dissolution Behavior of Cellulose. Biomacromolecules, vol.4, no.5, 1238-1243.
Aono, Hajime. Aggregate Structure and Rheological Properties of Mercerized Cellulose / LiCl·DMAc Solution. 日本レオロジ-學會誌 = Journal of the Society of Rheology, Japan, vol.32, no.4, 169-177.
23) C. L. McCormic, P. A. Callais and B. H. Hutchinson, Jr., “Solution studies of cellulose in lithium chloride and N , N -dimethylacetoamide” Macromolecules, Vol.18, pp.2394-2401 (1985).
Roder, T., Morgenstern, B., Schelosky, N., Glatter, O.. Solutions of cellulose in N,N-dimethylacetamide/lithium chloride studied by light scattering methods. Polymer, vol.42, no.16, 6765-6773.
25) H. T. Lokhande, S. R. Shukla, P. K. Chidambareswaran and N. B. Patil, “Ethylenediamine-induced conversion of cellulose I to cellulose III”, Polymer Letters Edition, Vol.15, pp.97-99 (1977).
26) D. Tatsumi, N. Zaima, T. Matsumoto, H. Sugiyama and H. Takahashi, “Hydrotropic pulping and biobleaching of kenaf”, Journal of the Society of Materials, Japan, Vol.55, pp.363-366 (2006).
27) D. A. I. Goring, “Polymer properties of lignin and lignin derivatives” Lignins, eds. by K. V. Sarkanen and C. H. Ludwig, chap.17 (1971) John Wiley & Sons.
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