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Multi-scale kinetics of a field-directed colloidal phase transition
by
Bunnell, Charles T
, Furst, Eric M
, Hall, Nancy R
, Swan, James W
, Wakata, Koichi
, Winne, Frank De
, Magnus, Sandra H
, Gast, Alice P
, Vasquez, Paula A
, Agui, Juan H
, Bohman, Donna Y
, Green, Robert D
, Whitson, Peggy A
, Barratt, Michael R
, Fincke, E. Michael
in
Chemical suspensions
/ Colloids
/ Colloids - chemistry
/ Condensation
/ Construction aggregate
/ dispersions
/ Field strength
/ gels
/ Gels - chemistry
/ Kinetics
/ Magnetic fields
/ Magnetics
/ Microgravity
/ Models, Chemical
/ Particle diffusion
/ Particle interactions
/ Phase Transition
/ Physical Sciences
/ Rheology
/ Weightlessness
2012
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Multi-scale kinetics of a field-directed colloidal phase transition
by
Bunnell, Charles T
, Furst, Eric M
, Hall, Nancy R
, Swan, James W
, Wakata, Koichi
, Winne, Frank De
, Magnus, Sandra H
, Gast, Alice P
, Vasquez, Paula A
, Agui, Juan H
, Bohman, Donna Y
, Green, Robert D
, Whitson, Peggy A
, Barratt, Michael R
, Fincke, E. Michael
in
Chemical suspensions
/ Colloids
/ Colloids - chemistry
/ Condensation
/ Construction aggregate
/ dispersions
/ Field strength
/ gels
/ Gels - chemistry
/ Kinetics
/ Magnetic fields
/ Magnetics
/ Microgravity
/ Models, Chemical
/ Particle diffusion
/ Particle interactions
/ Phase Transition
/ Physical Sciences
/ Rheology
/ Weightlessness
2012
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Multi-scale kinetics of a field-directed colloidal phase transition
by
Bunnell, Charles T
, Furst, Eric M
, Hall, Nancy R
, Swan, James W
, Wakata, Koichi
, Winne, Frank De
, Magnus, Sandra H
, Gast, Alice P
, Vasquez, Paula A
, Agui, Juan H
, Bohman, Donna Y
, Green, Robert D
, Whitson, Peggy A
, Barratt, Michael R
, Fincke, E. Michael
in
Chemical suspensions
/ Colloids
/ Colloids - chemistry
/ Condensation
/ Construction aggregate
/ dispersions
/ Field strength
/ gels
/ Gels - chemistry
/ Kinetics
/ Magnetic fields
/ Magnetics
/ Microgravity
/ Models, Chemical
/ Particle diffusion
/ Particle interactions
/ Phase Transition
/ Physical Sciences
/ Rheology
/ Weightlessness
2012
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Multi-scale kinetics of a field-directed colloidal phase transition
Journal Article
Multi-scale kinetics of a field-directed colloidal phase transition
2012
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Overview
Polarizable colloids are expected to form crystalline equilibrium phases when exposed to a steady, uniform field. However, when colloids become localized this field-induced phase transition arrests and the suspension persists indefinitely as a kinetically trapped, percolated structure. We anneal such gels formed from magneto-rheological fluids by toggling the field strength at varied frequencies. This processing allows the arrested structure to relax periodically to equilibrium—colloid-rich, cylindrical columns. Two distinct growth regimes are observed: one in which particle domains ripen through diffusive relaxation of the gel, and the other where the system-spanning structure collapses and columnar domains coalesce apparently through field-driven interactions. There is a stark boundary as a function of magnetic field strength and toggle frequency distinguishing the two regimes. These results demonstrate how kinetic barriers to a colloidal phase transition are subverted through measured, periodic variation of driving forces. Such directed assembly may be harnessed to create unique materials from dispersions of colloids.
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