Transport of soft matter in complex and confined environments

Joshua D Mcgraw (IPGG)

arXiv:2506.05884·cond-mat.soft·June 9, 2025

Transport of soft matter in complex and confined environments

Joshua D Mcgraw (IPGG)

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Open Access

TL;DR

This paper explores how Brownian motion and hydrodynamic energy inputs influence the transport and organization of soft matter in complex, confined environments, opening new avenues for understanding nanoscale biological systems.

Contribution

It introduces novel physical modes of nanoscale organization and transport by combining softness with hydrodynamic energy inputs in complex environments.

Findings

01

Identification of new physical modes of nanoscale transport

02

Insights into the role of hydrodynamics in soft matter organization

03

Potential applications in biological and nanotechnological systems

Abstract

Brownian motion provides a bedrock for the understanding of soft condensed matter and, therefore, of the physical description of the microscopic biological world. Inspired by this domain, and combining softness with hydrodynamic energy inputs, new physical modes of nanoscale organization and transport may now be accessible.

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Taxonomy

TopicsNanopore and Nanochannel Transport Studies · Force Microscopy Techniques and Applications · Advanced Physical and Chemical Molecular Interactions