E
Elisabetta A. Matsumoto
Researcher at Georgia Institute of Technology
Publications - 39
Citations - 2811
Elisabetta A. Matsumoto is an academic researcher from Georgia Institute of Technology. The author has contributed to research in topics: Non-Euclidean geometry & Liquid crystal. The author has an hindex of 11, co-authored 37 publications receiving 2136 citations. Previous affiliations of Elisabetta A. Matsumoto include Princeton University & Wyss Institute for Biologically Inspired Engineering.
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Journal ArticleDOI
Biomimetic 4D printing
A. Sydney Gladman,A. Sydney Gladman,Elisabetta A. Matsumoto,Elisabetta A. Matsumoto,Ralph G. Nuzzo,Lakshminarayanan Mahadevan,Lakshminarayanan Mahadevan,Jennifer A. Lewis,Jennifer A. Lewis +8 more
TL;DR: In this article, a plant-inspired shape morphing system is presented, where a composite hydrogel architecture is encoded with localized, anisotropic swelling behavior controlled by the alignment of cellulose fibrils along prescribed four-dimensional printing pathways.
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Colloquium: Disclination loops, point defects, and all that in nematic liquid crystals
G. P. Alexander,G. P. Alexander,Bryan Gin-ge Chen,Elisabetta A. Matsumoto,Elisabetta A. Matsumoto,Randall D. Kamien +5 more
TL;DR: The homotopy theory of topological defects is a powerful tool for organizing and unifying many ideas across a broad range of physical systems as mentioned in this paper, and it has been used for controlling and measuring colloidal inclusions in liquid crystalline phases.
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One-Step Nanoscale Assembly of Complex Structures via Harnessing of an Elastic Instability
TL;DR: A simple yet robust method to produce orientationally modulated two-dimensional patterns with sub-100 nm features over cm2 regions via a solvent-induced swelling instability of an elastomeric film with micrometer-scale perforations, and finds complete agreement between the theoretical ground-state and the observed pattern.
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Helical nanofilaments and the high chirality limit of smectics A.
TL;DR: In this paper, a chiral smectic structure composed of a lattice of chiral bundles was proposed as a model of the helical nanofilament (B4) phase of bent-core smectics.
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Elastic-instability triggered pattern formation
TL;DR: A simple model for determining the orientational order of membranes using only linear elasticity theory which correctly predicts the outcomes of several experiments is posed.