Grafted Adsorbing Polymers: Scaling Behavior and Phase Transitions

Citations Over TimeTop 10% of 1999 papers

Abstract

Grafted adsorbing polymers are investigated with the Scheutjens−Fleer self-consistent field model. The surface pressure of such systems is calculated numerically and semiquantitative agreement is found with experimental surface pressure isotherms of PS−PEO diblock copolymers at the air/water interface. Scaling relationships of mean-field models predict the surface pressure π and the height H of neutral brushes to scale as π ∼ σ5/3 and H ∼ σ1/3, respectively, as a function of the grafting density σ. These scaling relationships for the surface pressure and the thickness are corroborated experimentally for long PEO chains, provided contributions to π due to adsorption to the air−water interface are taken into account. In the SCF model the pancake−brush transition in a good solvent is found to be continuous for all chain lengths and adsorption energies. At high adsorption energies the transition is abrupt and resembles a continuous phase transition close to a critical point, a so-called λ-transition.

Related Papers

• → Anionic copolymerization of α,ω-dihydroxyoligodimethylsiloxane with organocyclosiloxanes(2008)2 cited
• → Alternating Copolymers by Complexed Copolymerization(1973)6 cited
• → Anionic Copolymerization of α-Methylstyrene and 2, 3-Dimethylbutadiene(1972)2 cited
• STUDY ON COPOLYMERIZATION OF D_3~F, D_4(2002)
• Copolymerization of N-vinylformamid and N-vinylcaprolactam(2006)