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Nyquist representation of the impedance spectrum obtained with two gold electrodes deposited on tin dioxide, at 300 C and under air

Nyquist representation of the impedance spectrum obtained with two gold electrodes deposited on zirconia, at 400 C and under air

Nyquist sampling in the spectral and time domains.

Nyquist, Bode magnitude and Bode phase angle plots for hypothetical corro-ding interfaces with Rcl 100 ohms, Rd 1000 ohms, Cdl 100 tF, Rs 10 ohms, e 0.1 cm, and D - 10 5, 10 6, and 10 7 cm2 s using the electrical equivalent circuit model of

Nyquist, Bode magnitude and Bode phase angle plots for hypothetical corroding interfaces with Rcl 100 ohms, R6 1000 ohms, Cd, 100 xF, Rs 10 ohms, cn 0.1 cm, and D 10 5, 10 6, and 10 7 cm2 s using the electrical equivalent circuit model of

Nyquist, Bode magnitude and Bode phase angle plots for hypothetical corroding interfaces with Rp 10, 100, or 1,000 ohms, Cd, 100 tF, and Rs 10 ohms using the electrical equivalent circuit model of

Nyquist, Bode magnitude and Bode phase angle plots for hypothetical corroding interfaces with Rp 100 ohms, Cd 100 pF, and Rs 1, 10, or 100 ohms using the electrical equivalent circuit model of

Nyquist, Bode magnitude and Bode phase angle plots for hypothetical corroding interfaces with Rp 100 ohms, Cdl 100 XF, and R, 1, 10, or 100 ohms using the electrical equivalent circuit model of

Nyquist, Bode magnitude and Bode phase angle plots for hypothetical corroding interfaces with Rv 10, 100, or 1,000 ohms, Cd, 100 pF, and Rs 10 ohms using the electrical equivalent circuit model of

Nyquist-plot of impedance data and the finite Warburg Modd.

Nyquist-plot of impedance data and the finite Warburg Model with parallel resistor.

Nyquist-plot of spectral impedance data and the applied extended Randles Circuit.

Nyquist-Warburg plot for Wledalite 2195 Al-Li alloy.

Nyqulst - acrylic and chlorinated rubber coatings alternatively immersed in 1 NaCl.

Nyqulst plots for specimens 24 . See Table II for details.

Nyqulst plots for specimens Identically prepared but Immersed In 3 NaCl for 4 hours at the temperature of Impedance measurement. See Table III for details. Legend

N—carboxylation of amides using EGB.

N—H bond arylation using catalytic amounts of Cu2 and a co-oxidant.

N—H bond lengths in N—H O hydrogen bonding systems. The phenomenon of N—H bond stretching is only weakly represented , probably because there are only few nearly matched systems that have been characterized by neutron diffraction. Neutron diffraction data are from the CSD. From top to bottom

N—I transition temperature Tc against the molecular weight.

O -bonding isotherms of hemoglobin and myoglobin

O -RIE etching of poly etch conditions 10 mTorr, 40 SCCM, -232V, 110W,

O 1 NMR signals with negative Jip values.

O 1 s core level corresponding to peak C, in

O 1 s core level measured at hv 570eV the kinetic energy of the photoelectrons that determines the escape depth of elastic electrons is similar to that in



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