Author
Listed:
- Seunggun Yu
(Korea Institute of Science and Technology
Yonsei University)
- Hyesung Cho
(Korea Institute of Science and Technology
University of Pennsylvania)
- Jun Pyo Hong
(Korea Institute of Science and Technology)
- Hyunchul Park
(Korea Institute of Science and Technology)
- Jason Christopher Jolly
(University of Pennsylvania)
- Hong Suk Kang
(University of Pennsylvania)
- Jin Hong Lee
(Korea Institute of Science and Technology)
- Junsoo Kim
(Electronics and Telecommunications Research Institute)
- Seung Hwan Lee
(Korea Institute of Science and Technology)
- Albert S. Lee
(Korea Institute of Science and Technology)
- Soon Man Hong
(Korea Institute of Science and Technology
University of Science and Technology)
- Cheolmin Park
(Yonsei University)
- Shu Yang
(University of Pennsylvania)
- Chong Min Koo
(Korea Institute of Science and Technology
University of Science and Technology
Korea University)
Abstract
Designing topographic clusters is of significant interest, yet it remains challenging as they often lack mobility or deformability. Here we exploit the huge volumetric expansion (up to 3000%) of a new type of building block, thermally expandable microbombs. They consist of a viscoelastic polymeric shell and a volatile gas core, which, within structural confinement, create micro-clusters via inverse jamming and topographical close-packing. Upon heating, microbombs anchored in rigid confinement underwent balloon-like blowing up, allowing for dense clusters via soft interplay between viscoelastic shells. Importantly, the confinement is unyielding against the internal pressure of the microbombs, thereby enabling self-assembled clusters, which can be coupled with topographic inscription to introduce structural hierarchy on the clusters. Our strategy provides densely packed yet ultralight clusters with a variety of complex shapes, cleavages, curvatures, and hierarchy. In turn, these clusters will enrich our ability to explore the assemblies of the ever-increasing range of microparticle systems.
Suggested Citation
Seunggun Yu & Hyesung Cho & Jun Pyo Hong & Hyunchul Park & Jason Christopher Jolly & Hong Suk Kang & Jin Hong Lee & Junsoo Kim & Seung Hwan Lee & Albert S. Lee & Soon Man Hong & Cheolmin Park & Shu Ya, 2017.
"Shaping micro-clusters via inverse jamming and topographic close-packing of microbombs,"
Nature Communications, Nature, vol. 8(1), pages 1-9, December.
Handle:
RePEc:nat:natcom:v:8:y:2017:i:1:d:10.1038_s41467-017-00538-z
DOI: 10.1038/s41467-017-00538-z
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