Add to ORKGBased upon kinetic Monte Carlo simulations of crystallization in a simple polymer model we present a new picture of the mechanism by which the thickness of lamellar polymer crystals is constrained to a value close to the minimum thermodynamically stable thickness, lmin. The free energetic costs of the polymer extending beyond the edges of the previous crystalline layer and of a stem being shorter than lmin provide upper and lower constraints on the length of stems in a new layer. Their combined effect is to cause the crystal thickness to converge dynamically to a value close to lmin where growth with constant thickness then occurs. This description contrasts with those given by the two dominant theoretical approaches. However, at small supe...
Flexible polymers crystallize with chain folding, which shows a unique phenomenon called self-poison...
Flexible polymers crystallize with chain folding, which shows a unique phenomenon called self-poison...
Flexible polymers crystallize with chain folding, which shows a unique phenomenon called self-poison...
Based upon kinetic Monte Carlo simulations of crystallization in a simple polymer model we present a...
Based upon kinetic Monte Carlo simulations of crystallization in a simple polymer model we present a...
Based upon kinetic Monte Carlo simulations of crystallization in a simple polymer model we present a...
Based upon kinetic Monte Carlo simulations of crystallization in a simple polymer mode) we present a...
In this paper, I describe the computer simulations that I have performed to critically examine the L...
A simulation approach to polymer crystallization is presented. The molecules approach crystallizatio...
Recent work on the mechanism of polymer crystallization has led to a proposal for the mechanism of t...
A simulation approach to polymer crystallization is presented. The molecules approach crystallizatio...
Flexible polymers crystallize with chain folding, which shows a unique phenomenon called self-poison...
Flexible polymers crystallize with chain folding, which shows a unique phenomenon called self-poison...
Flexible polymers crystallize with chain folding, which shows a unique phenomenon called self-poison...
Flexible polymers crystallize with chain folding, which shows a unique phenomenon called self-poison...
Flexible polymers crystallize with chain folding, which shows a unique phenomenon called self-poison...
Flexible polymers crystallize with chain folding, which shows a unique phenomenon called self-poison...
Flexible polymers crystallize with chain folding, which shows a unique phenomenon called self-poison...
Based upon kinetic Monte Carlo simulations of crystallization in a simple polymer model we present a...
Based upon kinetic Monte Carlo simulations of crystallization in a simple polymer model we present a...
Based upon kinetic Monte Carlo simulations of crystallization in a simple polymer model we present a...
Based upon kinetic Monte Carlo simulations of crystallization in a simple polymer mode) we present a...
In this paper, I describe the computer simulations that I have performed to critically examine the L...
A simulation approach to polymer crystallization is presented. The molecules approach crystallizatio...
Recent work on the mechanism of polymer crystallization has led to a proposal for the mechanism of t...
A simulation approach to polymer crystallization is presented. The molecules approach crystallizatio...
Flexible polymers crystallize with chain folding, which shows a unique phenomenon called self-poison...
Flexible polymers crystallize with chain folding, which shows a unique phenomenon called self-poison...
Flexible polymers crystallize with chain folding, which shows a unique phenomenon called self-poison...
Flexible polymers crystallize with chain folding, which shows a unique phenomenon called self-poison...
Flexible polymers crystallize with chain folding, which shows a unique phenomenon called self-poison...
Flexible polymers crystallize with chain folding, which shows a unique phenomenon called self-poison...
Flexible polymers crystallize with chain folding, which shows a unique phenomenon called self-poison...