Sentence examples for properties of charge from inspiring English sources
Comparative studies of electronic transport properties of charge carriers in the 2DEG are also investigated for the different proposed structures.
Results obtained within these experiments provided evidence for the in situ mucoadhesive properties of charge changing phosphorylated polymers.
Firstly, we review the current understanding of compensated silicon, focusing on the fundamental electronic properties of charge carriers: their density, mobility and lifetime.
This feature allows sampling of a larger area for experiments such as the study of how the electrical properties of charge density waves evolve between contacts, the proximity effect near a normal metal superconducting interface, charge transport near the contact of a semiconductor interface, and for finding microscopically small samples like graphene.
We can only determine the general properties of charge — that it comes in two varieties, that like charges repel, and so on — by empirical investigation.
Based on the transfer-matrix technique, the transport properties of charge carriers are investigated through monolayer and bilayer graphene superlattices modulated by a homogeneous electric field.
This paper presents the investigation of the electrical properties of charge-trap memories with AlN based storage layers.
Experimental test on the spin state and charge distribution in PAHs can be compared with our predictions and also is crucial for clarifying the magnetic and superconducting properties of charged PAHs.
Specific ion effects can be found everywhere in chemistry and biology and there are many reports of pronounced differences in the properties of charged monolayers, micelles, vesicles, dispersions or polyelectrolyte multilayers using different identically charged counterions.
The catechol moieties are known to have the properties of charge-transfer complex formation between the catechol groups and Ti4+ [35,36].
Physics of dusty plasma studies the properties of charged dust in the presence of electrons and ions [31].
