1 |
The effect of immobilization, drying and storage on the activity of proteinases immobilized on modified cellulose and chitosan Dosadina EE, Savelyeva EE, Belov AA Process Biochemistry, 64, 213, 2018 |
2 |
Dialdehyde cellulose-crosslinked collagen and its physicochemical properties Pietrucha K, Safandowska M Process Biochemistry, 50(12), 2105, 2015 |
3 |
Structural characterization of chitosan and oxidized carboxymethyl cellulose based freeze-dried films Teotia A, Ikram S, Gupta B Polymer Bulletin, 69(2), 175, 2012 |
4 |
Flocculation performance of a cationic biopolymer derived from a cellulosic source in mild aqueous solution Liimatainen H, Sirvio J, Sundman O, Visanko M, Hormi O, Niinimaki J Bioresource Technology, 102(20), 9626, 2011 |
5 |
Stabilization of type I collagen using dialdehyde cellulose Kanth SV, Ramaraj A, Rao JR, Nair BU Process Biochemistry, 44(8), 869, 2009 |
6 |
Application of ultrasonic waves in activation of microcrystalline cellulose Wang XL, Fang GZ, Hu CP, Du TC Journal of Applied Polymer Science, 109(5), 2762, 2008 |
7 |
Cationization of cellulose fabrics by polyallylamine binding Wu M, Kuga SN Journal of Applied Polymer Science, 100(2), 1668, 2006 |
8 |
Equilibrium and kinetic modeling of adsorption of urea nitrogen onto chitosan coated dialdehyde cellulose Liang ZP, Feng YQ, Meng SX, Liang ZY Process Biochemistry, 40(10), 3218, 2005 |
9 |
Thermal analysis and characterisation of cellulose oxidised with sodium methaperiodate Vicini S, Princi E, Luciano G, Franceschi E, Pedemonte E, Oldak D, Kaczmarek H, Sionkowska A Thermochimica Acta, 418(1-2), 123, 2004 |
10 |
Thermal decomposition of dialdehyde cellulose and its nitrogen-containing derivatives Kim UJ, Kuga S Thermochimica Acta, 369(1-2), 79, 2001 |