Fig. 4: LLPS droplet stabilization using living cell materials, chemical modulation and manipulation of out of equilibrium conditions.

a Coacervate stabilization using red blood cell (RBC) membrane fragments. Adapted with permission from Copyright © 2020, Nature Publishing Group⁵³. b PEG/dextran LLPS droplet ATPS stabilization using living cells. Adapted with permission from Copyright © 2019, Frontiers Media S.A⁵⁴. c Coacervate formation and stabilization using E. Coli and PA01 bacterial strains. Adapted with permission from Copyright © 2022, Nature Publishing Group⁵⁶. d DNA-based protocells composed of dual barcode components with complementary pairs. Adapted with permission from Copyright © 2022, Nature Publishing Group⁶⁰. e Coacervate stabilization via maintaining continuous non-equilibrium conditions inside rock pores. Adapted with permission from Copyright © 2022, Nature Publishing Group⁶³. f Stabilization via continuous chemical fuelling of ATP to the coacervates. Adapted with permission from Copyright © 2021, Nature Publishing Group²¹.