Journal
ACS CENTRAL SCIENCE
Volume 5, Issue 4, Pages 619-628Publisher
AMER CHEMICAL SOC
DOI: 10.1021/acscentsci.8b00903
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Funding
- National Science Foundation [CHE-1608115, CHE-1807330]
- MRSEC program [DMR-1559833, DMR-1420013]
- NSF through the MRSEC program [DMR-1420013]
- U.S. Department of Energy (DOE) Office of Science User Facility [DE-AC02-06CH11357]
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Small-angle X-ray scattering analyses reveal that the hydrated diblock oligomer n-C16H23(OCH2CH2)(20)-OH (C16E20 or Brij 58) forms lyotropic liquid crystals (LLCs) exhibiting face-centered cubic (FCC), body-centered cubic (BCC), Frank-Kasper (FK) A15, and cylindrical (HI) morphologies over the concentration range 30-65 wt % amphiphile. Heating LLCs comprising 54-59 wt % C16E20 drives the temperature-dependent phase transition sequence: A15 -> BCC -> H-I. However, rapidly quenching the resulting HI phase from 70 to 25 degrees C initially forms a BCC phase that isothermally transforms into a complex, tetragonal FK s phase comprising 30 quasispherical micelles. The metastability of this micellar s phase is shown to depend on the sample cooling rate, thermal quench depth, and isothermal annealing temperature. We rationalize the preference for the A15 structure at 25 degrees C in terms of minimizing unfavorable water/hydrophobic contacts, while maximizing local particle sphericity. The symmetry breaking transition kinetics in these micellar LLCs apparently stem from the temperature-dependent activation barriers for phase nucleation and growth, which are intimately coupled to the time scales for micelle reconfiguration by amphiphile chain exchange and their spatial rearrangement. These findings highlight how thermal processing influences nucleation and growth of the self-assembled morphologies of intrinsically reconfigurable, soft spherical particles.
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