Open AccessPatterns without Patches: Hierarchical Self-Assembly of Complex Structures from Simple Building Blocks
Author(s) -
Michael Grünwald,
Phillip L. Geissler
Publication year - 2014
Publication title -
acs nano
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 5.554
H-Index - 382
eISSN - 1936-086X
pISSN - 1936-0851
DOI - 10.1021/nn500978p
Subject(s) - simple (philosophy) , realizability , self assembly , spheres , chemical physics , nanotechnology , biological system , yield (engineering) , particle (ecology) , materials science , isotropy , molecular dynamics , statistical physics , computer science , physics , computational chemistry , chemistry , algorithm , philosophy , epistemology , quantum mechanics , astronomy , metallurgy , biology , oceanography , geology
Nanoparticles with "sticky patches" have long been proposed as building blocks for the self-assembly of complex structures. The synthetic realizability of such patchy particles, however, greatly lags behind predictions of patterns they could form. Using computer simulations, we show that structures of the same genre can be obtained from a solution of simple isotropic spheres, with control only over their sizes and a small number of binding affinities. In a first step, finite clusters of well-defined structure and composition emerge from natural dynamics with high yield. In effect a kind of patchy particle, these clusters can further assemble into a variety of complex superstructures, including filamentous networks, ordered sheets, and highly porous crystals.
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