Tim F. Liebert, editor, Thomas J. Heinze, editor, Kevin J. Edgar, editor
.PUBLICATION, DISTRIBUTION, ETC
Place of Publication, Distribution, etc.
[New York] :
Name of Publisher, Distributor, etc.
Distributed by Oxford University Press,
Date of Publication, Distribution, etc.
c2010
PHYSICAL DESCRIPTION
Specific Material Designation and Extent of Item
xii, 407 p. :
Other Physical Details
ill. ;
Dimensions
24 cm
SERIES
Series Title
ACS symposium series ;
Volume Designation
1033
GENERAL NOTES
Text of Note
"Developed from a symposium ... held at the 235th National Meeting of the American Chemical Society, in New Orleans, Louisiana, April 6-10, 2008"--Pref
Text of Note
"Sponsored by the ACS Division of Cellulose and Renewable Materials."
INTERNAL BIBLIOGRAPHIES/INDEXES NOTE
Text of Note
Includes bibliographical references and indexes
CONTENTS NOTE
Text of Note
Cellulose solvents: remarkable history, bright future / Tim Liebert -- Design of polar ionic liquids to solubilize cellulose without heating / Yukinobu Fukaya ... [et al.] -- Advances in aqueous cellulose solvents / Ang Lue and Lina Zhang -- Molten inorganic salts as reaction medium for cellulose / S. Fischer and K. Thummler -- Dimethyl sulfoxide and ammonium fluorides: novel cellulose solvents / Thomas Heinze and Sarah Kohler -- Hydrogen bond acceptor properties of ionic liquids and their effect on cellulose solubility / M. Sellin, B. Ondruschka and A. Stark -- On the specific behaviour of native cellulose fibers upon dissolution / N. Le Moigne and P. Navard -- Side reactions in the system cellulose/1-alkyl-3-methyl-imidazolium ionic liquid / Michael Schrems ... [et al.] -- Cellulose solubility: dissolution and analysis of 'problematic' cellulose pulps in the solvent system DMAc/LiCl / Ute Henniges ... [et al.] -- Comparison of solution-state properties of cellulose dissolved in NaOH/water and in ionic liquid (EMIMAc) / T. Budtova ... [et al.] -- Aspects of the interaction of native and synthetic polymers with direct dissolving liquids / B. Kosan ... [et al.] -- Effect of enzymatic treatment on solubility of cellulose in 7.6%NaOH-water and ionic liquid / Peter Rosenberg ... [et al.] -- Non-halide ionic liquids for solvation, extraction, and processing of cellulosic materials / Michael Hummel ... [et al.] -- Properties of cellulose/TiO2 fibers processed from ionic liquids / Mirela L. Maxim ... [et al.] -- Novel cellulose products prepared by homogeneous functionalization of cellulose in ionic liquids / Susann Dorn ... [et al.] -- Dissolution of cellulose in ionic liquids and its application for cellulose processing and modification / Liu ChuanFu ... [et al.] -- Imidazolium based ionic liquids as solvents for cellulose chemistry / Jurgen Vitz, Tina Erdmenger and Ulrich S. Schubert -- Structure-property relationship of cellulose ethers: influence of the synthetic pathway on cyanoethylation / B. Volkert, W. Wagenknecht and M. Mai -- Opportunities with wood dissolved in ionic liquids / Haibo Xie ... [et al.] -- Advances in cellulose solvent- and organic solvent-based lignocellulose fractionation (COSLIF) / Y.-H. Percival Zhang ... [et al.]
0
SUMMARY OR ABSTRACT
Text of Note
"Cellulose Solvents gives an overview of the current state-of-the-art concerning the activation and dissolution of cellulose in a broad variety of solvents. Research on this topic can lead to new pathways for the utilization of the most abundant terrestrial biomolecule and may therefore be the basis for new green strategies towards advanced materials. Leading scientists in the field show different conceptions for the solubilization of cellulose. The long history and groundbreaking developments in the field of polymer chemistry, which are related to this subject, have lead to timely alternatives to already established methods. In addition to discussing attempts for the optimization of known dissolving procedures, this book also details new solvent systems. New solvents include inorganic and organic salt melts (ionic liquids), new aqueous media, multi-component organic solvents and the dissolution under partial derivatization of the polysaccharide. The opportunities and the limitations of the solvents are demonstrated, with a particular emphasis on the stability of the solutions and a possible recycling of the solvent components. It illustrates that the new procedures for cellulose dissolution can lead to a huge number of unconventional superstructures of regenerated cellulose material, such as fibers and polymer layers with a thickness in the nanometer range or aerogels, i.e. regenerates with a highly porous character and a large surface. Moreover, cellulose blends can be generated via solutions. It also contains chapters that show the amazing potential of solvents for defined modification reactions on the cellulose backbone. On one hand, it is possible to synthesize known cellulose derivatives with new substitution patterns both on the basis of the repeating unit and along the polymer chain. On the other hand, completely new derivatives are presented which are hardly accessible via heterogeneous reactions. Consequently, this book is intended to give a comprehensive overview of procedures for dissolution of cellulose. It is of interest for scientists new in the field but is also a timely summary of trends for experts who are looking for new approaches for problems related to cellulose shaping or chemical modification."--Publisher's description
TOPICAL NAME USED AS SUBJECT
Cellulose-- Solubility
Solvents
DEWEY DECIMAL CLASSIFICATION
Number
661/
.
802
Edition
22
LIBRARY OF CONGRESS CLASSIFICATION
Class number
QD323
Book number
.
C41
2010
PERSONAL NAME - ALTERNATIVE RESPONSIBILITY
Edgar, Kevin J
Heinze, Thomas,1958-
Liebert, Tim
CORPORATE BODY NAME - ALTERNATIVE RESPONSIBILITY
American Chemical Society., Cellulose and Renewable Materials Division
American Chemical Society., Meeting(235th :2008 :, New Orleans, La.)