共查询到20条相似文献,搜索用时 18 毫秒
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G. Garkuseha H. Niewiadomski A. Parlow Eastman Kodak Company 《Analytical and bioanalytical chemistry》1938,115(9-10):378-380
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E. Debenedetti und F. Pancirolli 《Fresenius' Journal of Analytical Chemistry》1938,112(7-8):287-294
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M. emougin J. M. esrijelew L. S. Ssolowcitschik D. B. Judd D. L. Me Adam M. S. Kantrowitz R. H. Simmons F. R. Filz H. Fink R. Stahn A. Matthes L. Lilienfeld J. W. Me Bain W. L. Me Clatchie D. M. Greenberg M. M. Greenberg R. H. Miles Y. C. Tang H. L. Wang Erich Schmidt E. Graumann R. Schnegg W. Jandebeur Margarete Hecker W. Simson B. Schulze E. Rieger P. Guillot R. M. Cobb D. V. Lowe F. T. Carson L. Vidal P. Goldsmid H. Ahlquist S. Köhler C. V. Palmrose W. S. Hendrixson R. N. Miller W. H. wansoin H. John F. W. Poppet 《Analytical and bioanalytical chemistry》1937,109(7-8):281-299
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Silyl ethers of cellulose are promising derivatives of the biopolymer because they exhibit thermoplastic behavior at higher functionalization, may be applied as intermediate in subsequent reactions and have a high tendency to form defined supramolecular structures. Trimethylsilylation can be carried out by applying ionic liquids (ILs) such as 1-ethyl-3-methylimidazolium acetate (EMIMAc) as reaction medium. Pure trimethylsilyl cellulose (TMSC) can be efficiently synthesized with 1,1,1,3,3,3-hexamethyldisilazane (HMDS) yielding products with degrees of substitution (DS) up to 2.89. During the synthesis of highly functionalized derivatives, precipitation of the TMSC occurred, which simplifies the recycling of the IL. The tendency of TMSC toward the formation of supermolecular structures was exploited for the formation of pure cellulose nanospheres by a simple dialysis process. FTIR spectroscopy confirmed the complete removal of the TMS functions during this process. Scanning electron microscopy, dynamic light scattering, atomic force microscopy, and particle size distribution analysis showed that cellulose particles with a size of 100 to 200 nm are accessible in this simple manner. 相似文献
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Cellulose 总被引:2,自引:0,他引:2
Wolfgang W. Glasser 《Cellulose (London, England)》2001,8(4):317-320
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Cellulose 相似文献8.
W. G. Campbell J. C. Mc Gowan St. A. Bryant A. J. Bailey A. Orup R. I. Thieme H. Bergström K. G. Trobeck P. W. Moryganow J. I. Wlassjuk N. K. Koshewnikowa G. S. Ssurta G. Jayme H. Pfretzschner R. Steinmann M. G. van Beckum G. J. Ritter J. H. Barbour C. F. Cross und E. J. Bevan 《Fresenius' Journal of Analytical Chemistry》1940,119(1-2):67-71
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L. Pelet L. Grand R. Haller T. B. Bright E. Knecht Eva Hibbert C. Birtwell D. A. Clibbens B. P. Ridge W. D. Bancroft W. M. Clark und W. O. Snelling 《Fresenius' Journal of Analytical Chemistry》1937,109(5-6):235-238
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Klaus Fischer Karsten Krasselt Ingeborg Schmidt Derek Weightman 《Macromolecular Symposia》2005,223(1):109-120
The distribution of substituents of cellulose xanthogenate and carboxymethyl cellulose along the cellulose chains and therefore in relation to the molecular mass can be measured using size exclusion chromatography including a multi angle laser light scattering and mass detection for determining the molecular mass of the derivative assisted by an UV- detection for determining the xanthate groups and carboxymethyl groups after derivatisation, respectively. The results investigating cellulose xanthogenate show that the temperature used in dissolving xanthogenate and in ripening viscose influences the distribution of xanthate groups in a different way; but all steps processing viscose are connected with a loss in the degree of substitution in ripening the distribution of substitution additionally becomes more even. The investigated carboxymethyl cellulose revealed different distribution of carboxylic groups in dependence on the viscosity of the CMC. 相似文献
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This article discusses advances in understanding the structural and physicochemical characteristics of suspensions of cellulose crystallites prepared by acid hydrolysis of natural cellulose fibres. Consideration of recent developments in visualization of crystallite ultrastructure may provide clues to suspension behavior. In addition, novel applications in a diverse range of fields are presented, from iridescent pigments to biomolecular NMR studies. 相似文献
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Jiří Štamberg 《Separation & Purification Reviews》2013,42(2):155-183
Abstract A new polymeric structure has been developed which fills a blank in available hydrophilic supports for separation processes. Bead cellulose is a pure regenerated cellulose which is prepared by a modified viscose procedure. It is characterized by a regular spherical shape of individual particles, controlled porosity, accessibility for high molecular weight substances, high deformation stability and adequate chemical reactivity. Diverse uses of this new material are described, viz., physical supports, chromatographic materials, dried preparations and various derivatives with different functions like ion exchangers, metal chelating adsorbents, chemisorbents, affinity adsorbents, immobilized enzymes. Bead cellulose can also be coupled with various active substances giving composite systems. 相似文献
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Dorel Feldman 《高分子科学杂志,A辑:纯化学与应用化学》2013,50(4):322-329
Cellulose is a linear polysaccharide and one of the world's most abundant biopolymers. It is one of the renewable biopolymers being studied to reduce the dependence on non-renewable mineral oil based products. Cellulose can be used in different kinds of composites, including the recent nanocomposites.The production of nanoscale cellulose fibers and their use in polymer composites gained increasing attention due to their interesting properties and potential applications. This review paper is trying to cover studies done to use various forms of cellulose as reinforcement for different polymers, as matrix, as reinforcement and matrix for the same nanocomposite and as a component in polyblend nanocomposites beside other polymers. 相似文献
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液晶纤维素及其衍生物的进展 总被引:6,自引:0,他引:6
本文讨论了纤维素及其衍生物形成液晶态的准则,综述了它们的溶致和热致液晶性能、流变性能、成型加工特性及纤维和薄膜的结构与力学性能,指出了进一步的研究方向。 相似文献
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A. Demski L. Guitton A. Portevin I. G. Farbenindustrie A. G. H. Reichert W. R. G. Atkins P. Bastien V. P. Sacchi und A. V. Blom 《Fresenius' Journal of Analytical Chemistry》1940,119(1-2):64-67
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