Observation of liquid-to-glass and glass-to-glass transitions in L64/D 2O triblock copolymer micellar system

Sow Hsin Chen, Wei Ren Chen, Francesco Mallamace

Research output: Contribution to journalArticlepeer-review

Abstract

We report photon correlation spectroscopy (PCS), low shear viscosity and small angle neutron scattering (SANS) studies of a Pluronic L64 micellar system in aqueous solutions at high polymer concentrations (wt%), 35.0% < c < 54.4%, in a temperature range where a kinetic glass transition (KGT) has been observed. We analyze SANS intensity distributions in the liquid state assuming that the micelles are spherical and interact among themselves via an effective pair-potential consisting of a hard core plus a narrow attractive square-well, the depth of which is temperature dependent. Comparison of the potential parameters so obtained with the phase diagram predicted recently by mode coupling theory (MCT) allows us to verify the existence of the so-called "liquid to attractive glass" KGT line. We then use scaling plots of SANS intensity distributions to show the existence of another branch of the KGT line where transitions from a repulsive glass to an attractive glass occur. In particular, we show an evidence of the existence of the so-called A3 singularity end point where two glasses become identical in local structure [Sow-Hsin Chen, Wei-Ren Chen, Francesco Mallamace, "The glass-glass transition and its end point in a co-polymer micellar system", to be published].

Original languageEnglish
Pages (from-to)611-618
Number of pages8
JournalMolecular Simulation
Volume29
Issue number10-11
DOIs
StatePublished - Aug 1 2003
Externally publishedYes

Funding

The research at MIT is supported by a grant from Materials Science Division of US DOE. The research in Messina is supported by INFM-PRA98 and MURST-PRIN2000. We are indebted to Dr Emiliano Fratini for purifying L64 samples. We also wish to acknowledge stimulating discussions with professor Piero Tartaglia and professor Kenneth A. Dawson. Finally we are grateful to Dr Charles Glinka and Dr Derek Ho of CNR (NIST) and Dr Papanan Thiyagarajan of IPNS (ANL) for the beam time of NG7 and SAND spectrometers respectively and for their technical assistances.

FundersFunder number
Materials Science Division of US DOEMURST-PRIN2000, INFM-PRA98

    Keywords

    • Low shear viscosity
    • Photon correlation spectioscopy
    • Pluronic L64 micellar system
    • SANS

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