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Non-equilibrium structural and dynamic behaviors of active polymers in complex and crowded environments.

Guolong ZhuLijuan GaoYihang SunWenjie WeiLi-Tang Yan
Published in: Reports on progress in physics. Physical Society (Great Britain) (2024)
Active matter systems, which convert internal chemical energy or energy from the environment into directed motion, are ubiquitous in nature and exhibit a range of emerging non-equilibrium behaviors. However, most of the current works on active matter have been devoted to particles, and the study of active polymers has only recently come into the spotlight due to their prevalence within living organisms. The intricate interplay between activity and conformational degrees of freedom gives rise to novel structural and dynamical behaviors of active polymers. Research in active polymers remarkably broadens diverse concepts of polymer physics, such as molecular architecture, dynamics, scaling and so on, which is of significant importance for the development of new polymer materials with unique performance. Furthermore, active polymers are often found in strongly interacting and crowded systems and in complex environments, so that the understanding of this behavior is essential for future developments of novel polymer-based biomaterials. This review thereby focuses on the study of active polymers in complex and crowded environments, and aims to provide insights into the fundamental physics underlying the adaptive and collective behaviors far from equilibrium, as well as the open challenges that the field is currently facing.
Keyphrases
  • molecular dynamics
  • molecular dynamics simulations
  • minimally invasive
  • risk factors
  • mass spectrometry
  • density functional theory