Fractal hole growth in strained block copolymer films

Nagraj Koneripalli; Frank S. Bates; Glenn H. Fredrickson

doi:10.1103/PhysRevLett.81.1861

Fractal hole growth in strained block copolymer films

Nagraj Koneripalli, Frank S. Bates, Glenn H. Fredrickson

Chemical Engineering and Materials Science

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37 Scopus citations

Abstract

The evolution of surface topography in conformationally strained diblock copolymer films comprised of 3/2 lamellar bilayers was investigated by optical microscopy. Films of thickness 1.25D* < L < 1.5D* developed two-dimensional isotropic fractal holes with d_f = 1.67 following heterogeneous nucleation, where D* is the equilibrium lamellar spacing. A microscopic theory is presented that maps this hydrostatic tension driven hole growth instability onto the classical description of pattern formation during solidification.

Original language	English (US)
Pages (from-to)	1861-1864
Number of pages	4
Journal	Physical review letters
Volume	81
Issue number	9
DOIs	https://doi.org/10.1103/PhysRevLett.81.1861
State	Published - 1998

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title = "Fractal hole growth in strained block copolymer films",

abstract = "The evolution of surface topography in conformationally strained diblock copolymer films comprised of 3/2 lamellar bilayers was investigated by optical microscopy. Films of thickness 1.25D* < L < 1.5D* developed two-dimensional isotropic fractal holes with df = 1.67 following heterogeneous nucleation, where D* is the equilibrium lamellar spacing. A microscopic theory is presented that maps this hydrostatic tension driven hole growth instability onto the classical description of pattern formation during solidification.",

author = "Nagraj Koneripalli and Bates, {Frank S.} and Fredrickson, {Glenn H.}",

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AU - Bates, Frank S.

AU - Fredrickson, Glenn H.

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N2 - The evolution of surface topography in conformationally strained diblock copolymer films comprised of 3/2 lamellar bilayers was investigated by optical microscopy. Films of thickness 1.25D* < L < 1.5D* developed two-dimensional isotropic fractal holes with df = 1.67 following heterogeneous nucleation, where D* is the equilibrium lamellar spacing. A microscopic theory is presented that maps this hydrostatic tension driven hole growth instability onto the classical description of pattern formation during solidification.

AB - The evolution of surface topography in conformationally strained diblock copolymer films comprised of 3/2 lamellar bilayers was investigated by optical microscopy. Films of thickness 1.25D* < L < 1.5D* developed two-dimensional isotropic fractal holes with df = 1.67 following heterogeneous nucleation, where D* is the equilibrium lamellar spacing. A microscopic theory is presented that maps this hydrostatic tension driven hole growth instability onto the classical description of pattern formation during solidification.

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Fractal hole growth in strained block copolymer films

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