Crack Patterns in Laponite Films Dried in Electrostatic Field

TL;DR

This study investigates how applying a radial electric field influences crack patterns in dried laponite gel films, revealing unique radial crack formations linked to particle quadrupole interactions.

Contribution

First report demonstrating crack pattern formation in laponite films under a radial electric field, highlighting the role of quadrupole interactions in pattern development.

Findings

Crack patterns radiate from the positive electrode.

No such patterns form without the electric field.

Pattern formation depends on the electric field geometry.

Abstract

Crack patterns in a layer of laponite gel allowed to dry in a static electric field are studied. Crack patterns in natural and synthetic clays have been studied extensively with interesting results. This is the first report of such an observation in a radial electric field. The nano-sized disc-like laponite particles carry a quadrupole moment due to their charge distribution. The interaction of the quadrupole moment with the field gradient in a non-uniform field of radial symmetry is probably responsible for the characteristic pattern observed. The cracks start radially from the positive electrode. The same geometry with no field does not produce the characteristic pattern, neither does a uniform field with rectangular geometry.