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GC-MS Characterization Of Carbohydrates In An Archaeological Use Residue: A Case Study From The Coahuila Desert

Badrinath Dhakal, R. Armitage
Published 2013 · Chemistry

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This paper references
GC-MS analysis of monosaccharide mixtures as their diethyldithioacetal derivatives: Application to plant gums used in art works
V. Pitthard (2001)
Blood residues on ancient tool surfaces: A cautionary note
P. Smith (1992)
Identification of methylated saccharinolactones and partially methylated saccharinic acids in the thermally assisted hydrolysis and methylation of carbohydrates
C. Schwarzinger (2004)
Characterization of the tetramethylammonium hydroxide thermochemolysis products of carbohydrates
D. Fabbri (1999)
Development of a novel 96-microwell assay with high throughput for determination of olmesartan medoxomil in its tablets
I. Darwish (2012)
A testimony of prehistoric tasks: diagnostic residues on stone tool working edges
P. Anderson-Gerfaud (1980)
Swept under the rug: the problem of unacknowledged ambiguity in lithic residue identification
Gilliane Monnier (2012)
Identification of animal species by protein radioimmunoassay of bone fragments and bloodstained stone tools.
J. Lowenstein (2006)
Analytical pyrolysis of carbohydrates in the presence of hexamethyldisilazane
D. Fabbri (2001)
The use of an improved pRIA technique in the identification of protein residues
Joshua D Reuther (2006)
Thin-layer chromatographic and hydrolysis methods for the identification of plant gums in art objects
B. V. Kharbade (1995)
Ion chromatography characterization of polysaccharides in ancient wall paintings.
Maria Perla Colombin (2002)
Blood residues on stone tools: indoor and outdoor experiments.
C. Cattaneo (1993)
New Clues To Stone Tool Function: Plant and Animal Residues
F. Briuer (1976)
Rapid classification of White Oak (Quercus alba) and Northern Red Oak (Quercus rubra) by using pyrolysis direct analysis in real time (DART™) and time-of-flight mass spectrometry
R. Cody (2012)
Identification of ambiguous cubeb fruit by DART-MS-based fingerprinting combined with principal component analysis.
H. Kim (2011)
The Mechanism of Organic Preservation at Monte Verde, Chile, and One Use of Biomolecules in Archaeological Interpretation
N. Tuross (1995)
Survival and detection of blood residues on stone tools
J. Eisele (1995)
The Development and Initial Application of a Gas Chromatographic Method for the Characterization of Gum Media
S. L. Vallance (1998)
Direct analysis in real time mass spectrometry and multivariate data analysis: a novel approach to rapid identification of analytical markers for quality control of traditional Chinese medicine preparation.
S. Zeng (2012)
Protein Identification of Blood Residues on Experimental Stone Tools
N. Tuross (1996)
Microclimate monitoring in the Carcer Tullianum: temporal and spatial correlation and gradients evidenced by multivariate analysis; first campaign
G. Visco (2012)
The Development of a New Analytical Model for the Identification of Saccharide Binders in Paint Samples
Anna Lluveras-Tenorio (2012)
Characterization of carbohydrates using a combination of derivatization, high-performance liquid chromatography and mass spectrometry.
X. Shen (1998)
Gas chromatography–mass spectrometric analysis of products from on-line pyrolysis/silylation of plant gums used as binding media
O. Chiantore (2009)
GC/MS analytical procedure for the characterization of glycerolipids, natural waxes, terpenoid resins, proteinaceous and polysaccharide materials in the same paint microsample avoiding interferences from inorganic media.
A. Lluveras (2010)
Gas chromatographic-mass spectrometric characterisation of plant gums in samples from painted works of art.
I. Bonaduce (2007)

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