In a crowded room, we naturally move slower than in an empty space. Surprisingly, worms can show the exact opposite behavior: In an environment with randomly scattered obstacles, they tend to move ...

but I also wanted to show that this model can be used for a great many smart polymers. From relatively simple polymer materials to more biological structures. I really researched a wide spectrum." ...

The scientists built a computational model that allowed them to simulate the process of chromosome compaction based on a few fundamental assumptions ...

About 100 million metric tons of high-density polyethylene (HDPE), one of the world's most commonly used plastics, are ...

Republic’s second Polymer Center, collocated with a Blue Polymers facility, are designed to produce 175 million pounds of ...

Their locomotion in such environment is compared with simulation using an active polymer model (right). Perhaps even more surprisingly, the physicists found that more obstacles do not always make ...