Self-assembly of nanoscale braided structures
ORAL
Abstract
Capillarity, along with bending and cohesive forces, can induce assembly of nanopillar/micropillar arrays into a wide variety of structures. Experiments we performed involving seven hexagonally arranged pillars reveal a surprising transition from straight to twisted conformations. Separately, we also found that large arrays (e.g. 30x30, 10x40) of high-aspect ratio pillars can assemble into various structures, including chiral, globally twisted morphologies. Here we use numerical and scaling methods to understand how the rate of drying, capillarity, bending, and cohesion control the physics of elastocapillary-driven self-assembly.
–
Presenters
-
Edvin Memet
Harvard University
Authors
-
Edvin Memet
Harvard University
-
Mohammad Shahjamali
Harvard University
-
Cheng Zeng
Harvard University
-
Isaac Bruss
Harvard University
-
Vinothan N Manoharan
Harvard University, Department of Physics, Harvard University
-
Lakshminarayanan Mahadevan
Department of Physics, Harvard University, Harvard University, John A. Paulson School of Engineering and Applied Sciences, Harvard University, SEAS, Physics, OEB, Harvard University