Square-wave amplitude potential increment

Fig. 2.11 Square wave voltammograms for blanks of azurite and smalt, and for two samples from the Palomino s frescoes in the Sant Joan del Mercat church in Valencia, in contact with 0.50 M potassium phosphate buffer, pH 7.4 (a) azurite, (b) sample PV8b, (c) smalt, and (d) sample PA5b. Potential scan initiated at —0.85 mV in the positive direction. Potential step increment 4 mV square wave amplitude 15mV frequency 2Hz [133]...

Fig. 2.14 SQWVs of PIGEs modified with (a) Caput mortum, (b) Venetian red, immersed into 0.10 M HCl. Potential scan initiated at -1-0.65 V in the negative direction potential step increment 4 mV square wave amplitude 25 mV frequency 5 Hz [139]...

Fig. 2.16 SQWVs for silk fibers pigmented with (a) granado (b) alazor, (c) curcuma, (d) weld, and (e) cochineal red in contact with acetic/acetate buffer (total concentration 0.50 M) at pH 4.85. Potential step increment 4 mV square wave amplitude 25 mV frequency 5 Hz...

Fig. 2.20 SQWVs (first scan) of weld (a, b) and logwood (c, d) immersed into 0.25 M HAc + 0.25 M NaAc (a, c) and that electrolyte plus 0.05 M AICI3 (b, d). Potential step increment 4 mV square wave amplitude 25 mV frequency 15 Hz [124]...

M sodium acetate buffer, pH 4.85. Potential step increment 4 mV square wave amplitude 25 mV frequency 15 Hz [177]... 

Table 3.1 Diagnostic criteria for characterizing lead pigments via voltammetry of microparticles using deposits of the pristine pigments on parafiSn-impregnated graphite electrodes. Data from square-wave voltammograms at a potential step increment of 4 mV, square-wave amplitude of 25 mV, and frequency of 15 Hz. All potentials refer to AgQ (3M NaCl)/Ag. Electrolyte, 0.50 M acetate buffer, pH 4.85...

Fig. 3.12 Tafel SL vs. 00 diagram for the most common copper pigments and copper alteration products. From SQWVs of specimen-modified paraffin-impregnated graphite electrodes immersed into 0.50 M phosphate buffer, pH 7.4. Potential scan initiated at -1-0.45 mV in the negative direction. Potential step increment 4 mV square wave amplitude 15 mV frequency 2 Hz...

Fig. 4.13 Square-wave voltammograms of PIGEs modified with mixtures of a zirconium-containing sample plus Zr02 (standard) and ZnO (auxiliary reference material) in contact with O.IOM VaCZ. Sample ZnO mass ratio equal to 4.422 ZnO Zr02 mass ratio equal to (a) 0.163 (b) 1.216 and (c) 5.374. Potential scan initiated at —1.45 V in the positive direction without prior electrodeposition step. Potential step increment 4 mV square-wave amplitude 25 mV frequency 15 Hz. [234]...

Fig. 4.16 Square-wave voltammograms for (a) alizarin (15.72%) + morin (7.16%) -I- silica (77.12%) and (b) alizarin (19.03%) + purpurin (8.30%) -I- raorin (12.48%) -I- silica mixtures (60.19%). Electrolyte 0.50M sodium acetate buffer, pH 4.90. Potential step increment 4 mV square-wave amplitude 25 mV frequency 15 Hz [241]...

Fig. 4.18 Stripping oxidation peaks recorded for (a) Sn02 plus auxiliary clay (50%, 50% w/w mixture), and (b) Sn02 plus PbCOs plus auxiliary clay (20%, 40%, 40% w/w mixture) specimens attached to PlGEs in contact with 0.50 M acetate buffer. Square-wave voltammograms initiated at — 1.05 V after an electrodeposition step of 30 s at that potential. Potential step increment 4 mV square-wave amplitude 25 mV frequency 15 Hz [242]...

FIGURE 2.7 SQWV for microparticulate deposit of PY ion attached to zeolite Y deposited on paraffin-impregnated graphite electrode in contact with 0.10 M Et NClO /MeCN. Potential step increment, 4 mV square-wave amplitude, 25 mV frequency. 5 Hz. 

FIG (J RE 5.2 Square-wave voltammograms of Cu-MOF immersed into (a) 0.10 M BtqNPI y,/ MeCN, (b) 0.10 M Et4NClO4/MeCN, and (c) 0.10 M LiClO4/MeCN. Potential scan initiated at +1.65 V vs. AgCl/Ag in the negative direction. Potential step increment, 4 mV square-wave amplitude, 25 mV frequency, 5 Hz. (From Domenech et al., 2006d. Electrochem. Commun. 8 1830-1834, with permission.)... 

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