Single-Molecule Observation of Long Jumps in Polymer Adsorption

Citations Over TimeTop 10% of 2013 papers

Abstract

Single-molecule fluorescence imaging of adsorption onto initially bare surfaces shows that polymer chains need not localize immediately after arrival. In a system optimized to present limited adsorption sites (quartz surface to which polyethylene glycol (PEG) chains adsorb from aqueous solution at pH 8.2), we find that some chains diffuse back into bulk solution and readsorb at some distance away, sometimes multiple times before they either localize at a stable position or diffuse away into bulk solution. This mechanism of surface diffusion is considerably more rapid than the classical model in which adsorbed polymers crawl on surfaces while the entire molecule remains adsorbed, suggesting the conceptual generality of a recent report ( Phys. Rev. Lett. 2013 , 110 , 256101 ) but in a new experimental system and with comparison of different chain lengths. We find the trajectories with jumps to follow a truncated Lévy distribution of step size with limiting slope -2.5, consistent with a well-defined, rapid surface diffusion coefficient over the times we observe. The broad waiting time distribution appears to reflect that polymer chains possess a broad distribution of bound fraction: the smaller the bound fraction of a given chain, the shorter the surface residence time before executing the next surface jump.

Related Papers

• → Phytohemagglutinin enhancement of cell fusion reduces polyethylene glycol cytotoxicity(1979)43 cited
• Research Progress of Polyethylene Glycol Composite Phase Change Materials(2014)
• Synthesis of polyethylene glycol tosylate(2010)
• Synthesis and Characterization of Polyethylene Glycol Iron(2005)
• Synthesis of terminal imidazole polyethylene glycol(2013)