2011
DOI: 10.1002/app.34576
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Simulation of a flexible polymer tethered to a flat adsorbing surface

Abstract: A lattice self-avoiding polymer chain with one end attached to an adsorbing flat surface is simulated using Monte Carlo method. The chain model has z ¼ 26 bond vectors with bond length being 1, ffiffi ffi 2 p , and ffiffi ffi 3 p on the simple cubic lattice. The dependence of the number of surface contacts M on temperature T in the unit E/k B with E the interacting energy and k B the Boltzmann constant and chain length N is investigated by a finite-size scaling lawnear the critical adsorption point T c . It wa… Show more

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Cited by 28 publications
(51 citation statements)
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“…It is interesting that the T c of the long A n B n is the same as that of a homogeneous polymer with the same model. 17 At T c = 1.625, we obtain the exponent ϕ = 0.51, which is also close to that of the homogeneous polymer ϕ = 0.52. 17 The results clearly show that the tail block B does not change the CAP and critical exponents of the infinitely long copolymer A n B n if the surface attraction of monomer A is stronger.…”
Section: Critical Adsorptionsupporting
confidence: 52%
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“…It is interesting that the T c of the long A n B n is the same as that of a homogeneous polymer with the same model. 17 At T c = 1.625, we obtain the exponent ϕ = 0.51, which is also close to that of the homogeneous polymer ϕ = 0.52. 17 The results clearly show that the tail block B does not change the CAP and critical exponents of the infinitely long copolymer A n B n if the surface attraction of monomer A is stronger.…”
Section: Critical Adsorptionsupporting
confidence: 52%
“…17 At T c = 1.625, we obtain the exponent ϕ = 0.51, which is also close to that of the homogeneous polymer ϕ = 0.52. 17 The results clearly show that the tail block B does not change the CAP and critical exponents of the infinitely long copolymer A n B n if the surface attraction of monomer A is stronger. However, the tail block B can change the contact number as well as conformational properties of the finitely long copolymer A n B n .…”
Section: Critical Adsorptionsupporting
confidence: 52%
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