2012
DOI: 10.1039/c2sm07268h
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Influence of adsorbed polyelectrolytes on pore size distribution of a water-swollen biomaterial

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Cited by 29 publications
(46 citation statements)
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“…Maloney et al (1997) showed that some portion of the observed reduction in swellability associated by hornification may already be imparted by wet-pressing, even before the fibers have been subjected to drying. Aarne et al (2012b) found that cationic polyelectrolytes tended to promote irreversible closure of pores in the cell wall having widths greater than about 20 nm; the results were attributed to the suppression of osmotic swelling effects by adsorption of a cationic polyelectrolyte on negatively charged cellulosic surfaces.…”
Section: Viscoelastic Properties and Creepmentioning
confidence: 91%
“…Maloney et al (1997) showed that some portion of the observed reduction in swellability associated by hornification may already be imparted by wet-pressing, even before the fibers have been subjected to drying. Aarne et al (2012b) found that cationic polyelectrolytes tended to promote irreversible closure of pores in the cell wall having widths greater than about 20 nm; the results were attributed to the suppression of osmotic swelling effects by adsorption of a cationic polyelectrolyte on negatively charged cellulosic surfaces.…”
Section: Viscoelastic Properties and Creepmentioning
confidence: 91%
“…The average pore size in the macroscopic paper web is roughly between 1 and 10 lm (Resch et al 2010;Bennis et al 2010), the average pore size in pulp fibers is around 1-100 nm with mainly mesopores and macropores (Andreasson et al 2003;Aarne et al 2012;Lovikka et al 2016). Suspended particles have to be small enough not only for penetrating the paper matrix, but also for invading individual pulp fibers.…”
Section: Stability Factormentioning
confidence: 99%
“…Another approach in preventing the formation of hydrogen bonds is to introduce compounds that form bonds with cellulose that are reversible after rewetting, e.g., glucose or sucrose (Higgins and McKenzie 1963;Laivins and Scallan 1993;Zhang et al 2004). Recently, Aarne et al managed to slightly suppress hornification by adding high molecular weight cationic polyelectrolyte in excess before drying, which overcompensated the charge inside the larger pores and helped reopen them upon rewetting (Aarne et al 2012). …”
Section: Additivesmentioning
confidence: 99%