The three hydroxyls of the monomer units of cellulose can be substituted fully or in part. Generally, only regular derivatization along the chain leads to crystalline structures, and only these will be considered. Blockwise but regular derivatization of parts of the molecule can fulfill the proposed requirement of one-dimensional order along the chain molecule to a certain extent and an ordered three-dimensional structure appears in certain regions of the materials.
This is a preview of subscription content, log in via an institution to check access.
Access this chapter
Tax calculation will be finalised at checkout
Purchases are for personal use only
Preview
Unable to display preview. Download preview PDF.
References
Cartier L, Spassky N, Lotz B (1996) Structures frustrées de polymèrs chireaux. C R Acad Sci Paris Sér II b 322:429–435
Chanzy H, Roche E, Vuong R (1971) Electron diffraction of cellulose triacetate single crystals. Kolloid Z Z Polym 248:1034–1035
Chanzy HD, Roche EJ, Vuong RK (1973) Crystallization of cellulose triacetate from solution at high temperature. J Polym Sci Polym Phys Ed 11:1859–1861
Dorset DL (1995) Structural electron crystallography. Plenum, New York
Dulmage WJ (1957) The molecular and crystal structure of cellulose triacetate. J Polym Sci 26:277–288
Eggert U (1985) Untersuchungen zur Struktur von Cellulosetriestern. Doctoral dissertation, TU Clausthal, Clausthal-Zellerfeld
French AD, Johnson GP, Peralta-Inga Z, Stevens ED, Dowd MK (2002) Implications of the crystal structure of NAI-cellulose and a hybrid potential energy surface for cellulose structures. Polym Prepr 43(1):195–196
Hess K, Trogus C (1929) Über reversible und irreversible Gitteränderungen von Triacetylcellulose. (Röntgenographische Untersuchungen an Cellulosederivaten. III). Z Phys Chem B 5:161–176
Iwata T, Okumura K, Azuma J, Chanzy H, Tanaka F (1994) Single crystals of regio-selectively substituted cellulose hetereo-esters. Cellulose 1:67–76
Iwata T, Fukushima A, Okumura K, Azuma J (1996a) X-ray and electron diffraction study on cellulose butyrate diacetate (CBDA, 2, 3-di-O-acetyl-6-O-butyryl cellulose). Mokuzai Gakkaishi 42:289–292
Iwata T, Okumura K, Azuma J, Tanaka F (1996b) Molecular and crystal structure of cellulose propanoate diacetate (CPDA, 2, 3-di-O-acetyl-6-O-propanoyl cellulose). Cellulose 3:91–106
Iwata T, Okumura K, Azuma J, Tanaka F (1996c) Molecular and crystal structure of cellulose acetate dipropanoate (CADP, 6-O-acetyl-2, 3-di-O-propanoyl cellulose). Cellulose 3:107–124
Iwata T, Tanaka F, Okumura K, Azuma J (1996d) Conformation analysis of cellulose tributyrate and cellulose trivalerate. Sen’i Gakkaishi 52:423–429
Kono H, Numata Y, Nagai N, Erata T, Takai M (1999) CPMAS 13C NMR and X-ray studies of cellooligosaccharide acetates as a model for cellulose triacetate. J Polym Sci A 37:4100–4107
Kuppel A, Bittiger H, Husemann E (1972) Das Faserdiagramm des Triacetylcellulose- Nitromethankomplexes. Kolloid Z Z Polym 250:623–624
Kuppel A, Husemann E, Seifert E, Zugenmaier P (1973) Über die Umwandlung von Triacetylcellulose I in Triacetylcellulose II und die Packung der Cellulose in der nativen Faser. Kolloid Z Z Polym 251:432–433
Malm CJ, Genung LB, Fleckenstein JV (1947) Densities of cellulose esters. Ind Eng Chem 39:1499–1504
Manley RStJ (1963a) Growth and morphology of single crystals of cellulose triacetate. J Polym Sci A 1:1875–1892
Manley RStJ (1963b) Hydrolysis of cellulose triacetate crystals. J Polym Sci A 1:1893–1899
Meader D, Atkins EDT, Happey F (1978) Cellulose trinitrate: molecular conformation and packing considerations. Polymer 19:1371–1374
Meyer KH, Mark H (1930) Der Aufbau der hochpolymeren organischen Naturstoffe. Akademische Verlagsgesellschaft, Leipzig
Möller R (1982) Untersuchungen zur Struktur von Cellulosederivten. Diploma dissertation, TU Clausthal, Clausthal-Zellerfeld
Rånby BG, Noe RW (1961) Crystallization of cellulose and cellulose derivatives from dilute solution. I. Growth of single crystals. J Polym Sci 51:337–347
Riehl K (1992) Strukturuntersuchungen an Cellulosederivaten mit stereoselektiver Trennwirkung. Doctoral dissertation, TU Clausthal, Clausthal-Zellerfeld
Roche EJ, O’Brien JP (1985) Crystalline polymorphism of cellulose triacetate fibers spun from lyotropic solutions. In: Proceedings of the meeting of the Fiber Society of Japan, Hakone, Japan, p II-12
Roche E, Chanzy H, Boudeulle M, Marchessault RH, Sundarajan P (1978) Three-dimensional crystalline structure of cellulose triacetate II. Macromolecules 11:86–94
Roche EJ, O’Brien JP, Allen SR (1986) Preparation of cellulose triacetate I from solution. Polym Commun 27:138–140
Shuto Y (1990) Molecular and crystal structure analysis of cellulose tripropionate. Doctoral dissertation, Kyoto University, Kyoto
Shuto Y, Okamura K, Tanaka F, Norimoto M (1986) Conformational analysis of cellulose tripropionate. Bull Kyoto Univ For 58:280–288
Shuto Y, Sugiyama J, Harada H, Okamura K (1987) Single crystals of cellulose tripropionate. Macromolecules 20:2317–2318
Shuto Y, Okamura K, Azuma J, Tanaka F, Chanzy H (1989a) A combined electron and X-ray diffraction study of cellulose tripropionate. In: Schuerch C (ed) Cellulose and wood–chemistry and technology. Wiley, New York, pp 207–220
Shuto Y, Okamura K, Azuma J, Tanaka F, Chanzy H (1989b) X-ray and electron diffraction study of some cellulose derivatives. In: Kennedy JF, Phillips GO, Williams PO (eds) Cellulose: structural and functional aspects. Harwood, Chichester, pp 283–288
Sikorski P, Wada M, Heux L, Shintani H, Stokke B (2004) Crystal structure of cellulose triacetate I. Macromolecules 37:4547–4553
Sprague BS, Riley JL, Noether HD (1958) Factors influencing the crystal structure of cellulose triacetate. Text Res J 28:275–287
Steinmeier H (1988) Synthese von Cellulosederivaten und Untersuchungen zur Struktur im kristallinen und flüssigkristallinen Zustand. Doctoral dissertation, TU Clausthal, Clausthal-Zellerfeld
Steinmeier H, Zugenmaier P (1987) “Homogeneous” and “heterogeneous” cellulose triesters and a cellulose triurethane: Synthesis and structural investigations of the crystalline state. Carbohydr Res 164:97–105
Stipanovic AJ, Sarko A (1978) Molecular and crystal structure of cellulose triacetate I: a parallel chain structure. Polymer 19:3–8
Trogus C, Hess K (1929) Das Translationsgitter der Methylcellulose. Z Phys Chem B 4:331–345
VanderHart DL, Hyatt JA, Atalla RH, Tirumalai VC (1996) Solid-state 13C NMR and Raman studies of cellulose triacetate: Oligomers, polymorphism, and inferences about chain polarity. Macromolecules 29:730–739
Watanabe S, Hayashi J, Imai K (1968) A study of cellulose trinitrate structure. J Polym Sci C 23:809–823
Wolf RM, Francotte E, Glasser L, Simon I, Scheraga HA (1992) Computation of low-energy crystalline arrangements of cellulose triacetate. Macromolecules 25:709–720
Zugenmaier P (1983) Structural investigations on cellulose derivatives. J Appl Polym Sci Appl Polym Symp 37:223–238
Zugenmaier P (1986) Structural investigations on some cellulose derivatives in the crystalline and liquid crystalline state. In: Young RA, Rowell RM (eds) Cellulose–structure, modification and hydrolysis. Wiley, New York, pp 221–248
Zugenmaier P (1995) Novel results of structural investigations on crystalline and liquid crystalline cellulose derivatives and their potential application. In: Kennedy JF, Phillips GO, Williams PO, Piculell L (eds) Cellulose and cellulose derivatives: physico-chemical aspects and industrial applications. Woodhead, Cambridge, pp 381–392
Zugenmaier P (2006) Order in cellulosics: historical development of crystal structure research on cellulose. In: Abstracts of papers of the American Chemical Society 231, Cell, 26 March 26 2006, p 101
Zugenmaier P, Kuppel A (1986) Diffraction studies on trimetylcellulose and trimetylmannan. Colloid Polym Sci 264:231–235
Zugenmaier P, Rappenecker G (1978) The crystal and molecular structure of methyl tetraacetyl-β-D-glucoside. Acta Crystallogr Sect B 34:164–167
Rights and permissions
Copyright information
© 2008 Springer-Verlag Berlin Heidleberg
About this chapter
Cite this chapter
(2008). Cellulose Derivatives. In: Crystalline Cellulose and Derivatives. Springer Series in Wood Science. Springer, Berlin, Heidelberg. https://doi.org/10.1007/978-3-540-73934-0_6
Download citation
DOI: https://doi.org/10.1007/978-3-540-73934-0_6
Publisher Name: Springer, Berlin, Heidelberg
Print ISBN: 978-3-540-73933-3
Online ISBN: 978-3-540-73934-0
eBook Packages: Biomedical and Life SciencesBiomedical and Life Sciences (R0)