electrical properties

electrical properties

[i′lek·trə·kəl ′präp·ərd·ēz]
(electricity)
Properties of a substance which determine its response to an electric field, such as its dielectric constant or conductivity.
McGraw-Hill Dictionary of Scientific & Technical Terms, 6E, Copyright © 2003 by The McGraw-Hill Companies, Inc.
References in periodicals archive ?
Summary: TEHRAN (FNA)- Neuroscientists have discovered that human dendrites have very different electrical properties from those of other species.
In earlier research, Flanagan and colleagues discovered a new way to identify and sort neural stem cells that have different fates by using cell electrical properties.
This work was guided by research characterizing the electrical properties of CZT crystals following thermal treatments, however, in situ electrical properties characterization is needed to mimic real-life applications during exposure to environments with elevated temperatures.
Summary: A team is set to examine the electrical properties of clouds through a combination of theoretical and experimental work.
The formulations--all of which are halogen-free, RoHs and REACH compliant--are offered with a wide variety of electrical properties.
Largely drawn from a June 2015 workshop held at the University of Limerick, this collection explains the electrical properties of biocompatible materials and biological entities, the electrical interactions that occur between biological interfaces, and the preparation of advanced biomaterials for electrical devices.
The mechanical and electrical properties of beryllium copper make it the material of choice for EMI/RFI shielding products as well as for battery contacts, grounding clips, connector contacts, and ESD clips.
VEGA says since it is virtually unaffected by product properties, such as changing product density and electrical properties, the vibrating level switch is very versatile.
Supercomputer used to calculate electrical properties in approximately 20 hours
Only very few works were reported on the doping of the [In.sub.2][S.sub.3] films to modify their optical and electrical properties. Our group has investigated the band alignment at the [In.sub.2][S.sub.3]/[Cu.sub.2]ZnSn[S.sub.4] heterojunction interface [7].
Analysis of the electrical properties of nanostructures is crucial for the successful development of practical materials that take advantage of atomic-scale properties.

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