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Nature of the supermolecular state of certain aldehyde and ethylene oxide derivatives : Part I. The action of sodium on crotonaldehyde ; Part II. The ethylene oxide ring in relation to the supermolecular state.Jahn, Edwin C. January 1929 (has links)
No description available.
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Constitution of the so-called tetrabromobutyraldehyde ; An investigation into the 'super-molecular' structure of polyethyleneoxide and divinyletherPerry, Stanley Z. January 1929 (has links)
No description available.
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Preparation and modification of cellooligosaccharidesAkpinar, Ozlem 05 September 2002 (has links)
Cellooligosaccharides are the reaction intermediates produced during the
hydrolysis of cellulose to glucose. Hence, they have the same chemical structure as
cellulose, just shorter chain lengths. Cellooligosaccharides up to DP eight are
soluble in water. The soluble cellooligosaccharides can be used "as is" in the food
industry as non-digestible oligosaccharides and in the laboratory as representative
substrates for cellulolytic enzymes. The soluble cellooligosaccharides may also be
chemically modified for use in the laboratory, in this case serving as affinity ligands,
reporter groups, or model substrates.
A number of methods are available for the separation of
cellooligosaccharides differing only with respect to DP. This type of separation is
relevant to both laboratory and industrial applications. A new approach to the chromatographic separation of cellooligosacchandes is presented in this thesis. It is
shown that cellulose stationary phases, in conjunction with ethanol-water mobile
phases, may be used for cellooligosaccharide fractionation. The system appears to
behave as an affinity/partition system, with retention times increasing as the DP of
the cellooligosaccharides increase. The feasibility of using such a chromatographic
system for the "clean-up" of cellooligosaccharide mixtures is demonstrated.
The relative merit of different chromatographic approaches putatively used for the
fractionation of cellooligosaccharides was determined. Affinity-, adsorption-, ion-mediated-
and molecular exclusion-approaches were tested. Adsorption
chromatography, using a charcoal-celite stationary phase, was the most generally
applicable method for the preparation of near gram quantities of pure
cellooligosaccharides. Cellulose-based affinity/partition chromatography was found
to be the least time consuming and most economical method for the preparation of
cellotetraose and cellopentaose.
Studies using chemically modified cellooligosaccharides are typically limited
to derivatives whose aglycone group is conjugated to the reducing end of the sugar.
This is because the chemistry involved in modifying the reducing end is typically
much easier than that involved in selectively modifying other sites on the
oligosaccharides. A portion of the studies presented herein was aimed at exploring
approaches for the modification of the non-reducing end of cellooligosaccharides.
Methyl 6-O-p-nitrobenzoyl-β-D-glucoside was synthesized by reacting methyl 4,6-O-p-nitrobenzylidine-β-Dglucoside with N-bromosuccinimide. This method has
potential as a general method for the modification of the reducing terminus of
oligosaccharides, including, cellooligosaccharides. / Graduation date: 2003
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The substituent group distribution in a Michael reaction: carbamoethyl cellulose.Touzinsky, Gerald F. (Gerald Francis) 01 January 1964 (has links)
No description available.
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Formation and reactions of methylol celluloseBaker, Timothy J. 01 January 1979 (has links)
No description available.
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A new method for the production of cellulose acetateWilburn, Daniel Scott 08 1900 (has links)
No description available.
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Swelling pretreatment of lignocellulosic materials to promote enzymatic hydrolysisKitsos, Haralambos Minas 08 1900 (has links)
No description available.
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Inverse gas chromatographic and static measurements of water-polymer interactions : a thesisAspler, Joseph Stephen January 1980 (has links)
Note:
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Separation and detection of cellooligosaccharides on cellulose thin-layer chromatographySookavatana, Narumon 11 June 2001 (has links)
Linear oligosacchardies of 1,4 linked β-D-glucopyranose are commonly
referred to as cellodextrins (CD) or cellooligosaccharides (CO). They are of interest
to those working in disciplines involving cellulose chemistry because they are often
used as model substrates for cellulose itself. They are of interest to food scientists
and nutritionists because they are easily incorporated into foods as non-digestible
oligosaccharides, a category of food ingredients that is thought to be beneficial lo
human health. The intent of the research presented in this thesis was to evaluate the
potential of using cellulose supports for the chromatographic separation of soluble
CDs differing in their degree of polymerization (DP; a numerical value indicating
the number of glucose substituents per molecule). Soluble CDs range in DP from 2
to 8. Thin layer chromatography (TLC), using cellulose-coated TLC plates, was
used as a model chromatographic system.
Mixed CD preparations, containing CDs ranging in DP from 2 to 8 were
prepared by incomplete acid-catalyzed hydrolysis of cellulose. The DP profiles of
the different CD preparations were qualitatively demonstrated by TLC using silica-coated
plates, an organic solvent-based mobile phase, and a standard carbohydrate
visualizing reagent (p-anisaldehye in sulfuric acid). CD-preparations were then
chromatographed on cellulose-coated TLC plates. Visualization of the
chromatographed CDs was accomplished using a silver nitrate-sodium hydroxide
reagent system, a reducing-sugar visualizing reagent. The silver nitrate-sodium
hydroxide system was found to be the most appropriate, based on detection limits,
simplicity and safety, of the several visualization reagents tested.
Eight different mobile phases, all aqueous-based, were tested as potential
solvents for the resolution of CDs, differing in DP, on cellulose-coated tlc plates at
room temperature. The optimum solvent was found to be 60% ethanol/40% water.
This solvent clearly resolved CDs of DP 3, 4 and 5. CD preparations
chromatographed with the same mobile phase, but with silica-coated TLC plates,
were not resolved. These combined results suggest that the TLC system with the
cellulose stationary phase behaves similar to an affinity system, since silica and
cellulose are both relatively hydrophilic stationary phases (i.e. both systems are
typically considered examples of normal phase adsorption chromatography). The
results further illustrate that cellulose supports have potential for use in the
preparation of CDs of defined DP. / Graduation date: 2002
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A study of the diffusion of sorbed water vapor through paper and regenerated cellulose filmsAhlen, Arne T. 01 January 1969 (has links)
No description available.
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