pH-triggered

conduction of the ZnO-metal junctions pH-dep

pH-triggered

conduction of the ZnO-metal junctions pH-dependent conduction measurements were carried out on both amine-functionalized and unfunctionalized ZnO wires by injecting a drop (10 μL) of mild acid (10 μM HCl, pH 5), letting the solution act for few seconds, and drying it under nitrogen flux. It has to be noted that all the acid concentrations used are not enough to dissolve the ZnO structures, RGFP966 solubility dmso and no evidence of degradation due to any chemical reaction after Vactosertib contact with acidic pH solution was experienced. Interestingly, the reduction of the pH from 7 to 5 on the ZnO-NH2 wire triggers a shift towards higher absolute values of the measured current of the whole I-V characteristic (straight blue find more line, Figure 5a), with respect to the I-V in neutral conditions (red curve). At 2 V, the shift was of 0.52 μA. A further pH reduction using a higher HCl concentration

(100 μM, pH 4, dot blue line and further 1 mM, pH 3, dash-dot blue line) brings to even higher positive values of the current (relative shift of 0.84 and 1.15 μA at 2 V, respectively). This pH sensing resulted from the dramatic change in the charge state of the amine, as it gained protons in response to the pH of the surrounding medium. The isoelectric point (IEP) of the aminopropyltrimethoxysilane grafted on an oxide surface is at a pH slightly above 5, as previously verified [25, 46]. Therefore, at the pH values experienced in this work, the amine groups are positively charged (shifting from -NH2 to -NH3 +, see Figure 1). After abundant washing with water, the I-V restored back to the initial neutral conditions. The results were observed on different amine ZnO-gold junctions throughout the whole chip or on different gold electrode chips, showing the repeatability of the system. Additionally, the pH-triggered conduction variation can be obtained for several cycles up to ten times, without any damage of the ZnO structure. Figure 5 pH-triggered I – V curves for the amine-functionalized ZnO-gold junctions. (a) Experimentally recorded in neutral

conditions (red line) and after addition of HCl at pH 5 (straight blue line), pH 4 (dot blue line), and pH 3 (dash-dot blue line). (b) I-V in neutral (black) and acidic (red) conditions of the unfunctionalized ZnO-gold Liothyronine Sodium junction. (c) Simulated I-V. (d) ATK schemes of the ZnO-NH2 material on the gold electrodes before (ZnO-NH2) and after acid protonation (ZnO-NH3 +). To confirm theoretically this behavior, we run a second simulation, using the configuration with ZnO on gold electrodes, by inserting the amino groups between the gold electrodes and the ZnO wire (see the ATK scheme in Figure 5d, left). The new simulated I-V (red lines in Figure 4) showed a sharp decrease of the absorbed current with respect to that of bare ZnO (Figure 4e), as also observed for the experimental curves (Figure 4d).

Comments are closed.