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Self-assembled cubic phases:
o Scattering patterns
o Photonic properties
P.
Garstecki, R. Holyst
"The scattering patterns of multiply continuous cubic phases in block
copolymers. II. Application to various triply periodic architectures"
Macromolecules 36, 9191 (2003)
P.
Garstecki, R. Holyst
"The scattering patterns of multiply continuous cubic phases in block
copolymers. I. The model"
Macromolecules 36, 9181
(2003)
P.
Garstecki, R. Holyst
“The scattering patterns of self-assembled cubic phases. II. Analysis of the
experimental spectra.''
Langmuir 18, 2529 (2002)
P.
Garstecki, R. Holyst
“The scattering patterns of self-assembled cubic phases. I. The model.”
Langmuir 18, 2519 (2002)
P.
Garstecki, R. Holyst
“Scattering patterns of self assembled gyroid cubic phases in amphiphilic
systems''
J. Chem. Phys. 115, 2, 1095 (2001)
P.
Garstecki, R. Holyst
“Periodic surfaces of simple and complex topology: comparison of scattering
patterns''
Phys. Rev. E, 6402, 021501 (2001)
P.
Garstecki, R. Holyst
“Scattering on triply periodic minimal surfaces - the effect of the
topology, Debye-Waller, and molecular form factors''
J. Chem. Phys. 113, 9, 3772 (2000)
V.
Babin, P. Garstecki and R. Holyst
"Photonic properties of the core-shell FCC, BCC and diamond FCC opals”
J. Appl. Phys. 94, 4244 (2003)
V.
Babin, P. Garstecki and R. Holyst
"Photonic properties of multicontinuous cubic phases"
Phys. Rev. B 66, 235120 (2002)
V.
Babin, P. Garstecki and R. Holyst,
"Photonic properties of an inverted FCC opal under stretch and
shear"
App. Phys. Lett. 82, 1553 (2003)