![]() ![]() The work thus establishes a solid foundation with valuable insights for scalable manufacturing of devices useful for application in biomedical and other domains. This phase plot along with physical insights into the phenomena observed, pave pathways for extending the method to multiport LHSC (MLHSC) to demonstrate multiwell honeycomb structures. A new non-dimensional ratio of the velocity of evaporating static interface versus lifting velocity is proposed for the same. The plot with five orders of magnitude variation of non-dimensional numbers on each axis demarcates the regions of several newly observed phenomena: ‘No retention’, ‘Bridge breaking’, and ‘Wall formation’ with ‘stable’ and ‘unstable’ interface evolution. ![]() Rich experimental characterization data on volatile polymer solution evolution in a uniport lifted Hele-Shaw cell (ULHSC) is represented on a non-dimensional phase plot. This paper characterizes viscous fingering instability-based, lithography-less, spontaneous, and scalable process towards fabrication of 3D patterns like nature-inspired honeycomb structures with ultra-high aspect ratio walls. ![]() Mimicking nature using artificial technologies has always been a quest/fascination of scientists and researchers of all eras. ![]()
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