Towards local electromechanical probing of cellular and biomolecular systems in a liquid environment

Sergei V. Kalinin, Brian J. Rodriguez, Stephen Jesse, Katyayani Seal, Roger Proksch, Sophia Hohlbauch, Irene Revenko, Gary Lee Thompson, Alexey A. Vertegel

Research output: Contribution to journalArticlepeer-review

39 Scopus citations

Abstract

Electromechanical coupling is ubiquitous in biological systems, with examples ranging from simple piezoelectricity in calcified and connective tissues to voltage-gated ion channels, energy storage in mitochondria, and electromechanical activity in cardiac myocytes and outer hair cell stereocilia. Piezoresponse force microscopy (PFM) originally emerged as a technique to study electromechanical phenomena in ferroelectric materials, and in recent years has been employed to study a broad range of non-ferroelectric polar materials, including piezoelectric biomaterials. At the same time, the technique has been extended from ambient to liquid imaging on model ferroelectric systems. Here, we present results on local electromechanical probing of several model cellular and biomolecular systems, including insulin and lysozyme amyloid fibrils, breast adenocarcinoma cells, and bacteriorhodopsin in a liquid environment. The specific features of PFM operation in liquid are delineated and bottlenecks on the route towards nanometre-resolution electromechanical imaging of biological systems are identified.

Original languageEnglish
Article number424020
JournalNanotechnology
Volume18
Issue number42
DOIs
StatePublished - Oct 24 2007

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