Single-chain simulations of densely branched comb polymers, or ‘‘molecular bottle-brushes’’ with side-chains attached to every (or every second) backbone monomer, were carried out by off-lattice Monte Carlo technique. A coarse-grained model, described by hard spheres connected by harmonic springs, was employed. Backbone lengths of up to 100 units were considered, and compared with the corresponding linear chains. The backbone molecular size was investigated as a function of its length at fixed arm size, and as a function of the arm size at fixed backbone length. The apparent swelling exponents obtained by a power-law fit were found to be larger than those for the corresponding linear polymers, indicative of stiffening of the comb backbone....
We report the results of a Monte Carlo simulation study of isolated comb copolymer cylindrical brush...
The intrinsic local stiffness of a polymer is characterized by its persistence length. However, its ...
A Monte Carlo study is presented to discuss the influence of the side-chain topology on the enhancem...
Single-chain simulations of densely branched comb polymers, or ‘‘molecular bottle-brushes’’ with sid...
Branched macromolecules are currently of great scientific interest. They are formed by a backb...
AbstractDue to the complex characteristics of bottle-brush polymers, it became a challenge to develo...
A three dimensional continuous space Monte Carlo computer simulation study is presented to discuss t...
Due to the complex characteristics of bottle-brush polymers, it became a challenge to develop an eff...
A three dimensional continuous space Monte Carlo computer simulation study is presented to discuss t...
A Monte Carlo study is presented to discuss the influence of the side-chain topology on the enhancem...
Macromolecules may feature liquid crystalline behavior when the chain aspect ratio, that is the rati...
The off-lattice Monte Carlo method is applied to investigate the equilibrium conformations of isolat...
Summary: The structure of bottle-brush polymers with a rigid backbone and flexible side chains is st...
We report the results of a Monte Carlo simulation study of isolated comb copolymer cylindrical brush...
We report the results of a Monte Carlo simulation study of isolated comb copolymer cylindrical brush...
The intrinsic local stiffness of a polymer is characterized by its persistence length. However, its ...
A Monte Carlo study is presented to discuss the influence of the side-chain topology on the enhancem...
Single-chain simulations of densely branched comb polymers, or ‘‘molecular bottle-brushes’’ with sid...
Branched macromolecules are currently of great scientific interest. They are formed by a backb...
AbstractDue to the complex characteristics of bottle-brush polymers, it became a challenge to develo...
A three dimensional continuous space Monte Carlo computer simulation study is presented to discuss t...
Due to the complex characteristics of bottle-brush polymers, it became a challenge to develop an eff...
A three dimensional continuous space Monte Carlo computer simulation study is presented to discuss t...
A Monte Carlo study is presented to discuss the influence of the side-chain topology on the enhancem...
Macromolecules may feature liquid crystalline behavior when the chain aspect ratio, that is the rati...
The off-lattice Monte Carlo method is applied to investigate the equilibrium conformations of isolat...
Summary: The structure of bottle-brush polymers with a rigid backbone and flexible side chains is st...
We report the results of a Monte Carlo simulation study of isolated comb copolymer cylindrical brush...
We report the results of a Monte Carlo simulation study of isolated comb copolymer cylindrical brush...
The intrinsic local stiffness of a polymer is characterized by its persistence length. However, its ...
A Monte Carlo study is presented to discuss the influence of the side-chain topology on the enhancem...