Conformational properties of regular dendrimers and more general hyperbranched polymer stars with Gaussian statistics for the spacer chains between branching points are revisited numerically. We investigate the scaling for asymptotically long chains especially for fractal dimensions d f = 3 (marginally compact) and d f = 2.5 (diffusion limited aggregation). Power-law stars obtained by imposing the number of additional arms per generation are compared to truly self-similar stars. We discuss effects of weak excluded-volume interactions and sketch the regime where the Gaussian approximation should hold in dense solutions and melts for sufficiently large spacer chains
Two models of dense two-dimensional (2d) polymers are considered: (1) when chain intersections in 2d...
Recently, Raphaël, Pincus and Fredrickson considered the static properties of an isolated star poly...
The hyperbranched polymers can be made by self-condensing vinyl polymerization without gelation tran...
We present large statistics simulations of 3-dimensional star polymers with up to f = 80 arms and wi...
A dense system of mutually avoiding polymers, obeying a quenched power-law mass distribution, n(m) ∼...
We grow AB₂ random hyperbranched polymer structures in different ways and using different simulation...
Using the complementary approaches of Flory theory and the overlap function, we study the molecular ...
International audienceWhile stretching of a polymer along a flat surface is hardly different from th...
We perform high-statistics Monte Carlo simulations of a lattice model to compute the radius of gyrat...
While stretching of a polymer along a flat surface is hardly different from the classical Pincus pro...
We define a r-fractal as a self-similar structure built from N basic units, and with a maximum gyrat...
We consider the problem of establishing Flory-like formulas for the nu-exponent of polymer chains on...
We study the influence of topology on the extension of branched polymers subjected to external force...
This paper discusses the behavior of polymers with arbitrary connectivity in restricted geometries, ...
We consider the problem of establishing Flory-like formulas for the $\nu$-exponent of polymer chains...
Two models of dense two-dimensional (2d) polymers are considered: (1) when chain intersections in 2d...
Recently, Raphaël, Pincus and Fredrickson considered the static properties of an isolated star poly...
The hyperbranched polymers can be made by self-condensing vinyl polymerization without gelation tran...
We present large statistics simulations of 3-dimensional star polymers with up to f = 80 arms and wi...
A dense system of mutually avoiding polymers, obeying a quenched power-law mass distribution, n(m) ∼...
We grow AB₂ random hyperbranched polymer structures in different ways and using different simulation...
Using the complementary approaches of Flory theory and the overlap function, we study the molecular ...
International audienceWhile stretching of a polymer along a flat surface is hardly different from th...
We perform high-statistics Monte Carlo simulations of a lattice model to compute the radius of gyrat...
While stretching of a polymer along a flat surface is hardly different from the classical Pincus pro...
We define a r-fractal as a self-similar structure built from N basic units, and with a maximum gyrat...
We consider the problem of establishing Flory-like formulas for the nu-exponent of polymer chains on...
We study the influence of topology on the extension of branched polymers subjected to external force...
This paper discusses the behavior of polymers with arbitrary connectivity in restricted geometries, ...
We consider the problem of establishing Flory-like formulas for the $\nu$-exponent of polymer chains...
Two models of dense two-dimensional (2d) polymers are considered: (1) when chain intersections in 2d...
Recently, Raphaël, Pincus and Fredrickson considered the static properties of an isolated star poly...
The hyperbranched polymers can be made by self-condensing vinyl polymerization without gelation tran...