Mikko Salomäki, and Jouko Kankare. Modeling the growth processes of polyelectrolyte multilayers using a quartz crystal resonator.. Journal of Physical Chemistry B, (111)29:8509--8519, July 2007. [PUMA: Acid, Acoustics, Chemical; Chitosan, Elasticity; Electrolytes, Hyaluronic Models, Polylysine, Quartz; Viscosity chemistry; instrumentation;]

Tsetska Radeva, Kamelia Kamburova, and Ivana Petkanchin. Formation of polyelectrolyte multilayers from polysaccharides at low ionic strength.. Journal of Colloid and Interface Science, (298)1:59--65, June 2006. [PUMA: Adsorption; Artificial; Carboxymethylcellulose, Chitosan, Concentration; Hydrogen-Ion Iron, Membranes, Osmolar Properties Sodium, Surface chemistry;]

Di Cui, Anna Szarpak, Isabelle Pignot-Paintrand, Annabelle Varrot, Thomas Boudou, Christophe Detrembleur, Christine Jrme, Catherine Picart, and Rachel Auzly-Velty. Contact-Killing Polyelectrolyte Microcapsules Based on Chitosan Derivatives. Advanced Functional Materials, (20)19:3303--3312, WILEY-VCH Verlag, 2010. [PUMA: Coli E. Polyelectrolytes, antibacterials, capsules, chitosan, colloids,]

Soheil Boddohi, Christopher E Killingsworth, and Matt J Kipper. Polyelectrolyte multilayer assembly as a function of pH and ionic strength using the polysaccharides chitosan and heparin.. Biomacromolecules, (9)7:2021--2028, July 2008. [PUMA: Chitosan, Concentration; Electricity Heparin, Hydrogen-Ion Osmolar Polymers, Polysaccharides; Static chemical chemistry; synthesis;]