G. M. T. Foley scite author profile

Measurement of basal plane electrical resistivities in quasi-two-dimensional materials by conventional four-point bridge techniques is extremely difficult. In making measurements of room temperature basal plane resistivities in highly conducting highly anisotropic synthetic metals we have developed an rf inductive technique which is both simple to use and provides accurate results. At the frequency we employ (100 kHz) the method is appropriate for resistivities in the range 10 (-3)-10(-7)Omega cm. Samples are thin square plates 5 mm on a side. The system is calibrated by fitting data from a series of samples of known resistivity to semi-empirical formulae. The theoretical motivation leading to these expressions is discussed and extensive calibration data are presented. The advantages of rf techniques in general have already been discussed. Two advantages commend the particular technique we describe here. First, it is simple in design and easily constructed. Second, with careful calibration, highly accurate resistivity measurements can be made in a very straightforward manner.

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Metastable photoenhanced thermal generation in a-SeTe alloys

Abkowitz

Foley

Markovics

et al. 1984

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G. M. T. Foley

Room temperature electrical conductivity of a highly two dimensional synthetic metal: AsF5-graphite

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Contactless technique for the measurement of electrical resistivity in anisotropic materials

Metastable photoenhanced thermal generation in a-SeTe alloys

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