Electret (formed of "elektr-" from "electricity" and "-et" from "magnet") is a dielectric material that has a quasi-permanent electric charge or dipole polarisation. An electret generates internal and external electric fields, and is the electrostatic equivalent of a permanent magnet. Oliver Heaviside coined this term in 1885. Materials with electret properties were, however, already studied since the early 18th century. One particular example is the electrophorus, a device consisting of a slab with electret properties and a separate metal plate. The electrophorus was originally invented by Johan Carl Wilcke in Sweden and again by Alessandro Volta in Italy.

Similarity to capacitors

There is a similarity between electrets and the dielectric layer used in capacitors; the difference is that dielectrics in capacitors possess an induced polarization that is only transient, dependent on the potential applied on the dielectric, while dielectrics with electret properties exhibit quasi-permanent charge storage or dipole polarization in addition. Some materials also display ferroelectricity; i.e. they react to the external fields with a hysteresis of the polarization; ferroelectrics can retain the polarization permanently because they are in thermodynamic equilibrium, and are used in ferroelectric capacitors. Although electrets are only in a metastable state, those fashioned from very low leakage materials can retain excess charge or polarization for many years.

Electret types

There are two types of electrets:
* Real-charge electrets which contain excess charge of one or both polarities, either
** on the dielectric's surfaces (a surface charge)
** within the dielectric's volume (a space charge)
* Oriented-dipole electrets contain oriented (aligned) dipoles. Ferroelectric materials are one variant of these.

Cellular space charge electrets with internal bipolar charges at the voids provide a new class of electret materials, that mimic ferroelectrics, hence they are known as ferroelectret. Ferroelectrets display strong piezoelectricity, comparable to ceramic piezoelectric materials.

Some dielectric materials are capable of acting both ways.


Electret materials are quite common in nature. Quartz and other forms of silicon dioxide, for example, are naturally occurring electrets. Today, most electrets are made from synthetic polymers, e.g. fluoropolymers, polypropylene, polyethyleneterephthalate, etc. Real-charge electrets contain either positive or negative excess charges or both, while oriented-dipole electrets contain oriented dipoles. The quasi-permanent internal or external electric fields created by electrets can be exploited in various applications.


Bulk electrets can be prepared by cooling a suitable dielectric material within a strong electric field, after heating it above its melting temperature. The field repositions the charge carriers or aligns the dipoles within the material. When the material cools, solidification "freezes" them in position. Materials used for electrets are usually waxes, polymers or resins. One of the earliest recipes consists of 45% carnauba wax, 45% white rosin, and 10% white beeswax, melted, mixed together, and left to cool in a static electric field of several kilovolts/cm. The thermo-dielectric effect, related to this process, was first described by the Brazilian researcher Joaquim Costa Ribeiro.

Electrets can also be manufactured by embedding excess negative charge within a dielectric using a particle accelerator, or by "stranding" charges on, or near, the surface using high voltage corona discharges, a process called "corona charging". Excess charge within an electret decays exponentially. The decay constant is a function of the material's relative dielectric constant and its bulk resistivity. Materials with extremely high resistivity, such as Teflon, may retain excess charge for many hundreds of years. Most commercially produced electrets are based on fluoropolymers (eg. amorphous Teflon) machined to thin films.


Electret materials have recently found commercial and technical interest. For example, they are used in electret microphones and in copy machines. They are also used in some types of air filters, for electrostatic collection of dust particles, and in electret ion chambers for measuring ionizing radiation or radon. See US patent|6,969,484 for "Manufacturing Method and Device for Electret Processed Product"

Further reading

* Jefimenko, Oleg D. and David K. Walker (illus.), "Electrostatic motors; their history, types, and principles of operation". Star City [W. Va.] , Electret Scientific Co. [1973] . LCCN 73180890
* Jefimenko, Oleg D., "Electrets," (with D. K. Walker) Phys. Teach. 18, 651-659 (1980).
* Jefimenko, Oleg D. and David K. Walker, "Volume charge distribution in carnauba wax electrets", J. Appl. Phys. 44, 3459 (1973)
* Adams, Charles K., "Nature's Electricity". Tab Books, Inc., Pa. (USA). ISBN 0-8306-2769-3
* Gross, Bernhard, "Charge storage in solid dielectrics; a bibliographical review on the electret and related effects". New York, Elsevier Pub. Co., 1964. (Supported by the United States Air Force through the Air Force Office of Scientific Research of the Air Research and Development Command, under grants number AF 60-6 and 61-140.)
* Sessler, Gerhard M. and Gerhard-Multhaupt, R. (editors), "Electrets - Third edition in two volumes°, Laplacian Press, Morgan Hill, California, USA, 1998/1999, ISBN 1-885540-07-8

ee also

* Oliver Heaviside
* Telephone
* Electret microphone
* Electromotive force
* Tip ring sleeve
* Ferroelectricity


* Nowlin, Thomas E., and Curt R. Raschke, US patent|4291245, "A process for making polymer electrets"

Wikimedia Foundation. 2010.

Look at other dictionaries:

  • électret — [ elɛktrɛ(t) ] n. m. • 1905; angl. electret, de electr(icity) « électricité » et (magn)et « aimant » ♦ Diélectrique qui garde en permanence une polarisation électrique induite par un champ électrique temporaire. Microphone à électrets. ● électret …   Encyclopédie Universelle

  • Electret — Électret Un électret est un matériau diélectrique présentant un état de polarisation électrique quasi permanent. Dans un certain sens, c est l équivalent en électrostatique d un aimant permanent. Le terme électret a été proposé par Oliver… …   Wikipédia en Français

  • electret — ELECTRÉT, electreţi, s.m. Material care prezintă polarizaţie electrică permanentă la temperatura ambiantă, fără a fi deformat. – Din fr. électret. Trimis de LauraGellner, 13.09.2007. Sursa: DEX 98  electrét s. m., pl. electréţi Trimis de siveco …   Dicționar Român

  • electret — [ē lek′trit, ē lek′tret΄; i lek′trit, ilek′tret΄] n. any of certain solid, dielectric materials that have a permanent electric charge after being melted and resolidified in a strong electric field: used in telephones, microphones, etc …   English World dictionary

  • Électret — Un électret est un matériau diélectrique présentant un état de polarisation électrique quasi permanent. Dans un certain sens, c est l équivalent en électrostatique d un aimant permanent. Le terme électret, mot valise formé à partir de l anglais… …   Wikipédia en Français

  • electret — /i lek trit/, n. Elect. a dielectric that possesses a permanent or semipermanent electric polarity, analogous to a permanent magnet. [1880 85; ELECTR(ICITY) + (MAGN)ET] * * * ▪ physics       material that retains its electric polarization after… …   Universalium

  • electret — elektretas statusas T sritis fizika atitikmenys: angl. electret vok. Elektret, n rus. электрет, m pranc. électret, m …   Fizikos terminų žodynas

  • électret — elektretas statusas T sritis fizika atitikmenys: angl. electret vok. Elektret, n rus. электрет, m pranc. électret, m …   Fizikos terminų žodynas

  • electret — elektretas statusas T sritis chemija apibrėžtis Dielektrikas, ilgai išlaikantis įelektrinimą ir sukuriantis aplinkoje elektrinį lauką. atitikmenys: angl. electret rus. электрет …   Chemijos terminų aiškinamasis žodynas

  • electret — noun Etymology: electricity + magnet Date: 1885 a dielectric body in which a permanent state of electric polarization has been set up …   New Collegiate Dictionary

Share the article and excerpts

Direct link
Do a right-click on the link above
and select “Copy Link”

We are using cookies for the best presentation of our site. Continuing to use this site, you agree with this.