Add to ORKGABSTRACT: We investigate, by means of Monte Carlo simulations, the role of ring architecture and topology on the relative sizes of two interacting polymers as a function of the distance between their centers-of-mass. As a general rule, polymers swell as they approach each other, irrespectively of their topologies. For each mutual separation, two identical linear polymers adopt the same average size. However, unknotted rings at close separations adopt different sizes, with the small one being “nested ” within the large one over long time intervals, exchanging their roles in the course of the simulation. For two rings of different architectures and identical polymerization degree, the knotted one is always smaller, penetrating the unknotted o...
The effects of entanglement in solutions and melts of unknotted ring polymers have been addressed by...
We investigate the conformations and shapes of circular polymers close to planar, hard walls as well...
We investigate the conformations and shapes of circular polymers close to planar, hard walls as well...
We employ computer simulations and integral equation theory techniques to perform coarse-graining of...
We use numerical simulations to investigate how the chain length and topology of freely fluctuating ...
We use numerical simulations to investigate how the chain length and topology of freely fluctuating ...
The bond fluctuation method is used to simulate both nonconcatenated entangled and interpenetrating ...
The bond fluctuation method is used to simulate both nonconcatenated entangled and interpenetrating ...
Using off-lattice Monte Carlo simulation, we investigate the effects of topological constraints on t...
The effect of topological constraints on the properties of ring polymers in solution are studied. Wh...
The effect of topological constraints on the properties of ring polymers in solution are studied. Wh...
The interplay of topological constraints, excluded-volume interactions, persistence length and dyna...
We give two different, statistically consistent definitions of the length l of a prime knot tied ...
Using off-lattice Monte Carlo simulation, we investigate the effects of topological constraints on t...
Melts of unconcatenated and unknotted polymer rings are a paradigm for soft matter ruled by topologi...
The effects of entanglement in solutions and melts of unknotted ring polymers have been addressed by...
We investigate the conformations and shapes of circular polymers close to planar, hard walls as well...
We investigate the conformations and shapes of circular polymers close to planar, hard walls as well...
We employ computer simulations and integral equation theory techniques to perform coarse-graining of...
We use numerical simulations to investigate how the chain length and topology of freely fluctuating ...
We use numerical simulations to investigate how the chain length and topology of freely fluctuating ...
The bond fluctuation method is used to simulate both nonconcatenated entangled and interpenetrating ...
The bond fluctuation method is used to simulate both nonconcatenated entangled and interpenetrating ...
Using off-lattice Monte Carlo simulation, we investigate the effects of topological constraints on t...
The effect of topological constraints on the properties of ring polymers in solution are studied. Wh...
The effect of topological constraints on the properties of ring polymers in solution are studied. Wh...
The interplay of topological constraints, excluded-volume interactions, persistence length and dyna...
We give two different, statistically consistent definitions of the length l of a prime knot tied ...
Using off-lattice Monte Carlo simulation, we investigate the effects of topological constraints on t...
Melts of unconcatenated and unknotted polymer rings are a paradigm for soft matter ruled by topologi...
The effects of entanglement in solutions and melts of unknotted ring polymers have been addressed by...
We investigate the conformations and shapes of circular polymers close to planar, hard walls as well...
We investigate the conformations and shapes of circular polymers close to planar, hard walls as well...