Piezoresponse Force Microscopy: A Window into Electromechanical Behavior at the Nanoscale
Files
Related Collections
Degree type
Discipline
Subject
NONLINEAR DIELECTRIC MICROSCOPY
FERROELECTRIC DATA-STORAGE
THIN-FILMS
SINGLE-CRYSTALS
ULTRAHIGH DENSITY
LOCAL REACTIVITY
POLARIZATION
SURFACES
NANOSTRUCTURES
Funder
Grant number
License
Copyright date
Distributor
Related resources
Author
Contributor
Abstract
Piezoresponse force microscopy (PFM) is a powerful method widely used for nanoscale studies of the electromechanical coupling effect in various materials systems. Here, we review recent progress in this field that demonstrates great potential of PFM for the investigation of static and dynamic properties of ferroelectric domains, nanofabrication and lithography, local functional control, and structural imaging in a variety of inorganic and organic materials, including piezoelectrics, semiconductors, polymers, biomolecules, and biological systems. Future pathways for PFM application in high-density data storage, nanofabrication, and spectroscopy are discussed.
Advisor
Date Range for Data Collection (Start Date)
Date Range for Data Collection (End Date)
Digital Object Identifier
Series name and number
Publication date
Journal title
Volume number
Issue number
Publisher
Publisher DOI
Comments
Copyright 2009 Materials Research Society. Reprinted from: Piezoresponse Force Microscopy: A Window into Electromechanical Behavior at the Nanoscale. Bonnell DA, Kalinin SV, Kholkin AL, et al. MRS BULLETIN, 34:9, 648-657, SEP 2009 URL: http://www.mrs.org/s_mrs/sec_subscribe.asp?CID=24169&DID=250465&action=detail