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Fractal analysis of STM images of lignin polymer obtained by in vitro synthesis
(Slovak Academy of Sciences, 2000)
Lignin, the structural polymer of the plant cell walls, is produced by free radical polymerization of phenolic alcohols, catalyzed by different peroxidases. The mechanism and the structural organization of lignin in the ...
Primena multivarijacione analize u spektroskopskim podacima / Application of multivariate analysis on spectroscopic data.
(Univerzitet u Beogradu, Studije pri univerzitetu, 2016)
U ovoj tezi su primenjene hemometrijske metode u dekompoziciji fluorescentnih i FTIR spektara, dobijenih snimanjem uzoraka nanočestica, proteina i bioloških uzoraka. U cilju dekompozicije spektralnih podataka korišćene su: ...
ZL-DHP lignin model compound at the air-water interface
(Elsevier, Amsterdam, 2002)
In this paper we present our surface chemistry studies of enzymatically polymerized, poly-coniferyl alcohol lignin model compound (dehydrogenate polymer a.k.a. ZL-DHP) at the air-water interface. Using the CHCl3/MeOH (5:1 ...
Forces in plant cell walls during growth and under stress conditions
(Springer, New York, 2017)
STRUCTURAL CHARACTERISATION AND ORIENTATION OF CELL WALL POLYMERS IN MAIZE LEAVES
(University of Belgrade, Technical Faculty in Bor, 2019)
Cell wall can be considered as a nano-composite in which cellulose, lignin and hemicelluloses are
interconnected in a specific manner. Mechanical and physical propreties of plant fibres are dependent
on the orientation ...
Imaging FTIR microscopy – technique for rapid screening of plant cell walls
(University of Belgrade, Institute for Biological Research “Siniša Stanković”, National Institute of Republic of SerbiaSerbian Society for Microscopy, Serbia, 2019)
It has been shown that xylan is oriented in parallel to the cellulose and more or less parallel to the
axis of a cell wall, in isolated CW fragments from maize leaves. There was also a clear indication of
lignin orientation ...
Fluorescence Spectroscopy in Structural Studies of Plant Cell Walls
(5th International Congress on Microscopy & Spectroscopy, 2018)
Plant cell walls represent the most abundant, renewable and biodegradable composite on Earth. Its highly complex structure consists mainly of three organic compounds: cellulose, hemicelluloses, and lignin. Cell walls have ...
Gravitropic response in woody species: role of stem structural anisotropy
(Springer, New York, 2019)
Ispitivanje orijentacije strukturnih polimera ćelijskog zida kod tvrdog drveta (Acer platanoides L.), mekog drveta (Picea omorika (Pančić) Purkyně) i povijuše (Dioscorea balcanica Košanin)
(Универзитет у Београду, Факултет за физичку хемију, 2018)
Ćelijski zid vlakana drveta može se smatrati kao nano-kompozit, u kojem su celuloza, lignin i hemiceluloze kompleksno povezani. Organizacija i svojstva polimera drveta u velikoj meri određuju svojstva vlakana i drveta, pa ...
COMPARISON OF CELL WALL STRUCTURE OF DIFFERENT WESTERN BALKAN PLANT SPECIES AS A SOURCE FOR BIOFUELS
(East Sarajevo : Faculty of Agriculture, 2021, 2021)
Understanding of composition and connections between the building macromolecules of plant
biomass, such as cellulose, hemicellulose and lignin, is main key for their better utilization in
biofuels industry. We compared ...