Nanosphere Electrostatics Lab
This app allows users to simulate the self-assembly of ions near a spherically shaped nanoparticle, and extract the effective electrostatic properties.
Get StartedThe safe and successful application of nanotechnology in the biological realm remains a challenge due to the inherent multi-scale nature of biology. Engineering nanoBIO devices requires the knowledge of how nanotechnology-based devices interact with biological systems at the protein, cell, tissue, and organ levels.
The Engineered nanoBIO node at Indiana University (IU) develops a powerful set of integrated computational nanotechnology products that address this complex, multiscale problem in both education and research and facilitate the discovery of customized, efficient, and safe nanoscale devices for biological applications. These apps, tools, and frameworks span the range from nanoscale particles (nano) to cellular scale structures (micro) to tissue scale morpohologies (macro).
Self contained demonstrations of various nanoBIO applications.
Simple demonstrations of various nanoBIO applications.
Resources for educational modules typically given in lecture-type settings.
Recorded presentations with interactive activities and supporting documents.
The nanoBIO Node has worked to bring users to nanobiology simulation. To that end we have made significant progress with the following successes.
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Founded in 2017, The Engineered nanoBIO Node of the Network for Computational Nanotechnology works to bring research grade nanobiological simulation tools to students and researchers who do not necessarily have extensive programming expertise. Residing in the nanoHUB cloud, the apps range from soft-matter nanoparticles to cellular scale biophysics to tissue scale phenomena including simulation of COVID-19 infection.