Research Publications
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Aliphatic bio-oils from corks: A Py–GC/MS study.
Journal of Analytical and Applied Pyrolysis.
(2014). Production of biomaterials from cork: Liquefaction in polyhydric alcohols at moderate temperatures.
Industrial Crops and Products. 54, 296-301.
(2014). Thermal behaviour of cork and cork components.
Thermochimica Acta. 582, 94 - 100.
(2014). Variability of the Chemical Composition of Cork.
BioResources. 8, 2246-2256.
(2013). Allocation of 14C assimilated in late spring to tissue and biochemical stem components of cork oak (Quercus suber L.) over the seasons.
Tree Physiology. 32(3), 313 - 325.
(2012). Artificial bacterial degradation and hydrous pyrolysis of suberin: Implications for hydrocarbon generation of suberinite.
Organic Geochemistry. 47, 22-33.
(2012). Cellular structure and chemical composition of cork from the Chinese cork oak (Quercus variabilis).
Journal of Wood Science.
(2012). An integrated approach to understanding the sorption mechanism of phenanthrene by cork..
Chemosphere.
(2012). Isolation of suberin from birch outer bark and cork using ionic liquids: A new source of macromonomers.
Industrial Crops and Products.
(2012). Suberin isolation from cork using ionic liquids: characterisation of ensuing products.
New Journal of Chemistry. 36(10),
(2012). Temperature-induced structural and chemical changes in cork from Quercus cerris.
Industrial Crops and Products. 37, 508-513.
(2012). Suberized Cell Walls of Cork from Cork Oak Differ from Other Species.
Microscopy and Microanalysis. 16(5), 569 - 575.
(2010). Ultrastructural Observations Reveal the Presence of Channels between Cork Cells.
MICROSCOPY AND MICROANALYSIS. 15, 539-544.
(2009). Ultrastructural Observations Reveal the Presence of Channels between Cork Cells.
MICROSCOPY AND MICROANALYSIS. 15(6), 539 - 544.
(2009). Identification of new molecules extracted from Quercus suber L. cork..
Comptes rendus biologies. 331(11), 853 - 858.
(2008). Identification of new molecules extracted from Quercus suber L. cork..
Comptes rendus biologies. 331, 853-858.
(2008). Glycerol-derived ester oligomers from cork suberin..
Chemistry and physics of lipids. 144(1), 96 - 107.
(2006). Glycerol-derived ester oligomers from cork suberin..
Chemistry and physics of lipids. 144, 96-107.
(2006). Suberin: A promising renewable resource for novel macromolecular materials.
Progress in Polymer Science. 31, 878-892.
(2006). Suberin: A promising renewable resource for novel macromolecular materials.
Progress in Polymer Science. 31(10), 878 - 892.
(2006). Quercus suber cork extract displays a tensor and smoothing effect on human skin: an in vivo study..
Drugs under experimental and clinical research. 31(3), 89 - 99.
(2005). Quercus suber cork extract displays a tensor and smoothing effect on human skin: an in vivo study..
Drugs under experimental and clinical research. 31, 89-99.
(2005). The organosolv fractionation of cork components.
HOLZFORSCHUNG. 56(2), 135 - 142.
(2002). Composition of Suberin Extracted upon Gradual Alkaline Methanolysis of Quercus suber L. Cork.
Journal of Agricultural and Food Chemistry. 48(2), 383 - 391.
(2000). Cork suberin as an additive in offset lithographic printing inks.
Industrial Crops and Products. 11(1), 63 - 71.
(2000). Cork suberin as an additive in offset lithographic printing inks.
Industrial Crops and Products. 11, 63-71.
(2000). Methanolysis of bark suberins: analysis of glycerol and acid monomers.
Phytochemical Analysis. 11, 45-51.
(2000). An NMR microscopy study of water absorption in cork.
Journal of Materials Science. 5, 1891-1900.
(2000). Quantitation of aliphatic suberin in Quercus suber L. cork by FTIR spectroscopy and solid-state 13C-NMR spectroscopy.
Biopolymers. 57(6), 344 - 351.
(2000). Structural characterization of cork lignin by thioacidolysis and permanganate oxidation.
HOLZFORSCHUNG. 53, 167-174.
(1999).