Theory and simulation studies of self-assembly of helical particle

Giorgio Cinacchi; Alberta Ferrarini; Elisa Frezza; Achille Giacometti,; Hima Bindu Kolli

arXiv:1610.04894·cond-mat.soft·October 18, 2016

Theory and simulation studies of self-assembly of helical particle

Giorgio Cinacchi, Alberta Ferrarini, Elisa Frezza, Achille Giacometti,, Hima Bindu Kolli

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TL;DR

This chapter explores the theoretical frameworks and simulation techniques used to understand the self-assembly processes of helical particles, providing insights into their structural formation and phase behavior.

Contribution

It introduces a comprehensive approach combining theory and simulations to study the self-assembly of helical particles, advancing understanding of their structural organization.

Findings

01

Identification of key parameters influencing helical particle assembly

02

Simulation results showing various assembled structures

03

Theoretical models predicting phase behavior of helical systems

Abstract

This is the unedited authors' version of Chapter 3 appearing in the following book: Self-Assembly Systems: Theory and Simulations Ed. Li-Tang Yan John Wiley & Sons, Ltd, Chichester, pp. 53-84 (2017)

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Taxonomy

TopicsModular Robots and Swarm Intelligence · Micro and Nano Robotics · Pickering emulsions and particle stabilization