Hysteretic memory in pH-response of water contact angle on poly(acrylic acid) brushesElectronic supplementary information (ESI) available: XPS spectrum obtained from an initiator-grafted substrate (Fig. S1); FTIR spectra obtained from PtBA and PAA on the silicon substrate (Fig. S2); 1H-NMR spectrum obtained from PtBA polymerized in solution (Fig. S3); GPC data obtained from PtBA polymerized in solution (Fig. S4) and resulting Mn and of all polymers (Table S1); as-synthesized dry thickness of all

We investigated the pH-dependent response of flat polyacid brushes of varying length and dispersity in the extended brush regime. Our model system consisted of poly(acrylic acid) brushes, which change from hydrophobic and neutral at low pH to hydrophilic and negatively charged at high pH, synthesize...

Full description

Saved in:
Bibliographic Details
Main Authors: Yadav, Vivek, Harkin, Adrienne V, Robertson, Megan L, Conrad, Jacinta C
Format: Article
Language:
Online Access:Get full text
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:We investigated the pH-dependent response of flat polyacid brushes of varying length and dispersity in the extended brush regime. Our model system consisted of poly(acrylic acid) brushes, which change from hydrophobic and neutral at low pH to hydrophilic and negatively charged at high pH, synthesized on silicon substrates using a grafting-from approach at constant grafting density. We observed three trends in the pH-response: first, the dry brush thickness increased as the pH was increased for brushes above a critical length, and this effect was magnified as the dispersity increased; second, the water contact angle measured at low pH was larger for brushes of greater dispersity; and third, brushes of sufficient dispersity exhibited hysteretic memory behavior in the pH-dependence of the contact angle, in which the contact angle upon increasing and decreasing pH differed. As a consequence, the p K a of the brushes measured upon increasing pH was consistently higher than that measured upon decreasing pH. The observed pH response is consistent with proposed changes in the conformation and charge distribution of the polyelectrolyte brushes that depend on the direction of pH change and the dispersity of the brushes. High brush dispersity generates hysteretic memory behavior in weak polyacid brushes, for which p K a upon increasing and upon decreasing pH differ.
ISSN:1744-683X
1744-6848
DOI:10.1039/c5sm03134f