Resources
Journal papers
Dasheiff, R. M. and W. S. Risk (1972), "Undergraduate experiment on low-temperature dependence of the conductivity of copper wire," AJP 40, 1489-1492.
Falcon, E. and B. Castaing (2005), "Electrical conductivity in granular media and Branly's coherer: a simple experiment," Am. J. Phys. 73 (4), 302-7.
Ferguson, J. L. (1990), "A simple demonstration of conduction in glass at high temperature," AJP 58, 90.
Glazkov, V. N., L. Ginzburg, and A. Orlov (2017), "Wiedemann-Franz law demonstration in a student practicum," Am. J. Phys. 85 (6), 473 - 7.
Jaffe, S. E. and B. Stoeckly (1980), "Audible demonstration device for qualitative analysis of temperature-dependent resistance," AJP 48, 88.
Kamal, R., S. Sikri, and B. R. Sood (1983), "An experiment for studying the electrical conductivity and its critical behavior in ferromagnets," AJP 51, 631-633.
Klein, A. G. (1975), "Positive and negative temperature coefficients of resistance," AJP 43, 1100-1101.
Klein, W. (1987), "In memoriam J. Jaumann: a direct demonstration of the drift velocity in metals," AJP 55, 22-3.
Listerman, T. W. and X. Zhou (1985), "Determining the temperature-dependent characteristic temperature of beryllium from electrical resistance measurements," AJP 53, 460-463.
Perkalskis, B. S. and J. R. Freeman (1998), "Examining tensors in the lab: The dielectric permittivity and electrical resistivity of wood," Am. J. Phys. 66 (9), 816-20.
Schwartz, G. A. and S. J. Luduena (2004), "An experimental method for studying two-dimensional percolation," Am. J. Phys. 72 (3), 364-6.
Thomas, J. F. and R. Deltour (1981), "Temperature dependence of the platinum resistivity: an experiment for students in solid state and cryophysics," AJP 49.
Vandervoort, K. G., J. M. Willingham, and C. H. Morris (1995), "Simple, inexpensive probe for resistivity measurements above 77 K on metals and superconductors," Am. J. Phys. 63 (8), 759-60.
Washburn, S. (1979), "Conductance fluctuations in loops of gold," AJP 47, 1069-1078.
Winch, D. M. (1969), "Elementary experiment on the variation of resistance at low temperatures," AJP 37, 108.
Capizzo, M. C., R. M. Sperandeo-Mineo, and M. Zarcone (2008), "Electric conduction in semiconductors: a pedagogical model based on the Monte Carlo method," Eur. J. Phys. (UK) 29 (3), 451 - 66.
Castellanos-Gomez, A. (2013), "A Simple Method to Characterize the Electrical and Mechanical Properties of Micro-fibres," Eur. J. Phys. (UK) 34 (6), 1547 - 54.
Fox, J. N. and N. W. Gaggini (1987), "A computer-intefaced experiment to measure the electical resistivity of a semiconductor," Eur. J. Phys. 8, 273-275.
Iniguez, J., V. Raposo, A. Hernandez-Lopez, A. G. Flores, and M. Zazo (2004), "Study of the conductivity of a metallic tube by analysing the damped fall of a magnet," Eur. J. Phys. 25 (5), 593-604.
Kraftmakher, Y. (2018), "The inverse method of measuring resistivity in a rotating magnetic field: a student project," Eur. J. Phys. (UK) 39 (4), 045501 (7 pp.) .
Lacsny, B., P. Kralikova, S. Dudakova, I. Skorecova, and A. Teleki (2017), "Measurement of the thermal coefficient of electrical resistivity of a nonmagnetic metal," Eur. J. Phys. (UK) 38 (3), 035201 (7 pp.) .
Lindenfeld, P. (1980), "Size effects in conductivity and superconductivity (apples, wires, and grains)," Phys. Teach. 18 (4), 260-7.
do Couto Tavares, M., M. C. Fonte Boa, and P. M. C. de Oliveira (1991), "A mechanical analogy for Ohm's law," Phys. Educ. 26, 195-199.
Fox, J. N. (1990), "Temperature coefficient of resistance," Phys. Educ. 25, 167-169.
Owen, A. E. (1970), "The electrical properties of glasses," Phys. Educ. 5, 97-100.
Books
Bullis, W. M., D. G. Seiler, and A. C. Diebold (1996), Semiconductor Characterization: Present Status and Future Needs (AIP Press).
Jiles, D. (1994), Introduction to the Electronic Properties of Materials (Chapman & Hall).
Kane, P. F. and G. B. Larrabee (1970), Characterization of Semiconductor Materials (McGraw-Hill).
Runyan, W. R. (1998), Semiconductor Measurements and Instrumentation, 2nd ed. (McGraw-Hill).
Schroder, D. K. (1990), Semiconductor Material and Device Characterization (Wiley).
Solymar, L. and D. Walsh (2010), Electrical Properties of Materials, 8th ed. (Oxford Univ. Press)
Stallinga, P. (2009), Electrical Characterization of Organic Electronic Materials and Devices (Wiley).
Stradling, R. A. and P. C. Klipstein (1990), Growth and Characterisation of Semiconductors (Adam Hilger).
Perkowitz, S. (1993), Optical Characterization of Semiconductors: Infrared, Raman, and Photoluminescence Spectroscopy (Academic).