Active processes make mixed lipid membranes either flat or crumpled

Abstract: Whether live cell membranes show miscibility phase transitions (MPTs), and if so, how they fluctuate near the transitions remain outstanding unresolved issues in physics and biology alike. Motivated by these questions we construct a generic hydrodynamic theory for lipid membranes that are active, due for instance, to the molecular motors in the surrounding cytoskeleton, or active protein components in the membrane itself. We use this to uncover a direct correspondence between membrane fluctuations and MPTs. Se… Show more

“…[7][8][9][10] These atomically thick 2D polymers display rich conformational phases that can be flat, wrinkled, and crumpled, which in turn determine the properties of single molecules and their assemblies. [11][12][13] The conformational behaviors are crucial for their applications, which, however, still remain a controversial issue in the theoretical and experimental studies ever since the 1980s. As for the mushrooming family of 2D macromolecules, the lack of understanding of their conformations makes rational design of high-performance and multifunctional applications challenging.…”

Conformational Phase Map of Two-Dimensional Macromolecular Graphene Oxide in Solution

“…[7][8][9][10] These atomically thick 2D polymers display rich conformational phases that can be flat, wrinkled, and crumpled, which in turn determine the properties of single molecules and their assemblies. [11][12][13] The conformational behaviors are crucial for their applications, which, however, still remain a controversial issue in the theoretical and experimental studies ever since the 1980s. As for the mushrooming family of 2D macromolecules, the lack of understanding of their conformations makes rational design of high-performance and multifunctional applications challenging.…”

Conformational Phase Map of Two-Dimensional Macromolecular Graphene Oxide in Solution

“…[ 35 ] Until now, a lot of different phases has been found such as flat, fold, crumple, flat stacks, multiple folds and multiple crumples, and the corresponding scaling law for a given phase is carefully investigated in the dilute limit. [ 35–38 ] Recently, there is a fascinating work which uses machine learning techniques to discover again the different conformations of 2D sheet in dilute solutions and to map their morphology. This data‐driven approach extracts key geometric and topological features of 2D sheet.…”

Structural Spectrum of 2D Materials in Solution: Toward Establishing 2D Assemblies’ Digital Factory

Contrastive factors of activity and crowding on conformational properties of a flexible polymer