2018
DOI: 10.5796/electrochemistry.18-00028
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Electrochemical Behavior and Specific Adsorption of an Iodide-based Ionic Liquid on Au(111)

Abstract: The electrochemical behavior and specific adsorption of an ionic liquid, 1-butyl-3-methylimidazolium iodide, on a Au(111) electrode surface were investigated via voltammetric analyses, X-ray photoelectron spectroscopy (XPS), and scanning tunneling microscopy (STM). The electrochemical potential window and the reductive desorption of I adatoms were evaluated using voltammetric techniques. The XPS and STM results supported the specific adsorption of I adatoms on Au(111). Furthermore, high-resolution STM images r… Show more

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Cited by 8 publications
(6 citation statements)
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“…Figure S2 shows the results of the XPS measurements performed on the samples after the above-mentioned optical measurements to investigate the electronic structure and the amount of MgPc molecules. The Au 4f and I 3d spectra shown in Figures S2a and S2b, respectively, suggest that iodine adsorption causes a slight positive charge on the Au(111) substrate, as reported in previous studies. , The C 1s peaks in Figure S2c are broad for both samples, suggesting the existence of various adsorption structures, in addition to the different chemical states expected from the molecular structures. The presence of the O 1s peak in Figure S2e can be attributed to a water molecule strongly coordinating with the MgPc molecules. , In contrast to the cases of C 1s and O 1s, the peak position of N 1s in Figure b differs significantly depending on the presence of the iodine monolayer, indicating that the electronic state of the MgPc molecule has changed.…”
Section: Results and Discussionsupporting
confidence: 84%
“…Figure S2 shows the results of the XPS measurements performed on the samples after the above-mentioned optical measurements to investigate the electronic structure and the amount of MgPc molecules. The Au 4f and I 3d spectra shown in Figures S2a and S2b, respectively, suggest that iodine adsorption causes a slight positive charge on the Au(111) substrate, as reported in previous studies. , The C 1s peaks in Figure S2c are broad for both samples, suggesting the existence of various adsorption structures, in addition to the different chemical states expected from the molecular structures. The presence of the O 1s peak in Figure S2e can be attributed to a water molecule strongly coordinating with the MgPc molecules. , In contrast to the cases of C 1s and O 1s, the peak position of N 1s in Figure b differs significantly depending on the presence of the iodine monolayer, indicating that the electronic state of the MgPc molecule has changed.…”
Section: Results and Discussionsupporting
confidence: 84%
“…[55][56][57] Gibbs energy of iodide adsorption at Cd (0001) and Bi(hkl) single-crystal electrodes was determined (increase in the sequence H 2 O < MeOH < EtOH < EC < PC < gamma-butyrolactone < AN), but there was no clear separation of the adsorption process from faradaic iodide oxidation.. [58] Anion adsorption has been investigated on Bi(hkl), and Cd (0001) surfaces in ionic liquid by electrochemical impedance method as well as differential capacitance measurements. [58] The specific adsorption of iodide on an Au(111) electrode surface in the ionic liquid was examined via voltammetric analyses, XPS, and STM; [59] ffi ffi ffi 3 p � ffi ffi ffi 3 p À � and p � ffi ffi ffi 3 p À � was found similar to the aqueous system. [30] This work is a continuation of our previous publication, in which we studied the influence of iodide concentration and various cations on the adsorption rate and extent of adsorption in propylene carbonate.…”
Section: Introductionmentioning
confidence: 99%
“…Anion adsorption has been investigated on Bi(hkl), and Cd(0001) surfaces in ionic liquid by electrochemical impedance method as well as differential capacitance measurements [58] . The specific adsorption of iodide on an Au(111) electrode surface in the ionic liquid was examined via voltammetric analyses, XPS, and STM; [59] 3×34ptandp×3 was found similar to the aqueous system [30] …”
Section: Introductionmentioning
confidence: 99%
“…As indicated using the solid lines, no significant differences in the voltammetric shape at the anodic scan were identified between Au( hkl ). During the cathodic scan, a voltammetric peak generated by the from the reductive desorption of the iodine adlayer on Au( hkl ) appeared at approximately –2.20 V vs. Fc/Fc + [1] , [9] . Furthermore, the | j | value during the E pw-CL determining reduction was lowest for Au(110).…”
Section: Data Descriptionmentioning
confidence: 99%