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Single Component Systems

Base cyclic voltammograms for electrodes recorded in aqueous electrolytes with a single additional component (water + one acid, base, or salt).

Click a graph for more details.

Ag

Substrate Electrolyte Year Reference
abd_1998_electrochemical_1103_f1_solid (poly) \(1 \; \mathrm{M}\) \(\ce{ NaOH }\) 1998 Abd et. al. Fig. 1 (solid)
abou_2003_electrosorption_211_f1a_dotted (100) \(0.05 \; \mathrm{M}\) \(\ce{ KClO4 }\) 2003 Abou et. al. Fig. 1a (dotted)
jovic_1999_cyclic_247_f1_dashed (111) \(0.01 \; \mathrm{M}\) \(\ce{ NaOH }\) 1999 Jovic et. al. Fig. 1 (dashed)
jovic_1999_cyclic_247_f1_solid (111) \(0.1 \; \mathrm{M}\) \(\ce{ NaOH }\) 1999 Jovic et. al. Fig. 1 (solid)
jovic_1999_cyclic_247_f4_solid (111) \(0.1 \; \mathrm{M}\) \(\ce{ NaOH }\) 1999 Jovic et. al. Fig. 4 (solid)
jovic_1999_cyclic_247_f6_dashed (111) \(0.1 \; \mathrm{M}\) \(\ce{ NaOH }\) 1999 Jovic et. al. Fig. 6 (dashed)
jovic_1999_cyclic_247_f6_solid (111) \(0.1 \; \mathrm{M}\) \(\ce{ NaOH }\) 1999 Jovic et. al. Fig. 6 (solid)
jovic_1999_cyclic_247_f7_dashed (100) \(0.1 \; \mathrm{M}\) \(\ce{ NaOH }\) 1999 Jovic et. al. Fig. 7 (dashed)
jovic_1999_cyclic_247_f7_solid (111) \(0.1 \; \mathrm{M}\) \(\ce{ NaOH }\) 1999 Jovic et. al. Fig. 7 (solid)
nakamura_2011_structure_165433_f1b_blue (100) \(0.01 \; \mathrm{M}\) \(\ce{ CsBr }\) 2011 Nakamura et. al. Fig. 1b (blue)
ocko_1996_halide_55_f6a_solid (100) \(0.05 \; \mathrm{M}\) \(\ce{ NaBr }\) 1996 Ocko et. al. Fig. 6a (solid)
zei_1991_structure_295_f3a_solid (111) \(0.01 \; \mathrm{M}\) \(\ce{ NaCl }\) 1991 Zei et. al. Fig. 3a (solid)
zei_1991_structure_295_f3b_solid (111) \(0.01 \; \mathrm{M}\) \(\ce{ NaBr }\) 1991 Zei et. al. Fig. 3b (solid)

Au

Substrate Electrolyte Year Reference
blizanac_2004_anion_625_f3a_black (100) \(0.1 \; \mathrm{M}\) \(\ce{ HClO4 }\) 2004 Blizanac et. al. Fig. 3a (black)
cuesta_2000_adsorption_5684_f1a_black (111) \(0.1 \; \mathrm{M}\) \(\ce{ H2SO4 }\) 2000 Cuesta et. al. Fig. 1a (black)
cuesta_2000_adsorption_5684_f1b_black (111) \(0.1 \; \mathrm{M}\) \(\ce{ H3PO4 }\) 2000 Cuesta et. al. Fig. 1b (black)
cuesta_2000_adsorption_5684_f3a_black (111) \(0.1 \; \mathrm{M}\) \(\ce{ H2SO4 }\) 2000 Cuesta et. al. Fig. 3a (black)
cuesta_2000_adsorption_5684_f3b_black (100) \(0.1 \; \mathrm{M}\) \(\ce{ H3PO4 }\) 2000 Cuesta et. al. Fig. 3b (black)
kerner_2002_measurement_2055_f2a_solid (111) \(0.1 \; \mathrm{M}\) \(\ce{ HClO4 }\) 2002 Kerner et. al. Fig. 2a (solid)
kibler_2003_preparation_1_f5-2-1b_dashed (100) \(0.1 \; \mathrm{M}\) \(\ce{ H2SO4 }\) 2003 Kibler et. al. Fig. 5-2-1b (dashed)
kibler_2003_preparation_1_f5-2-1b_solid (100) \(0.1 \; \mathrm{M}\) \(\ce{ H2SO4 }\) 2003 Kibler et. al. Fig. 5-2-1b (solid)
kibler_2003_preparation_1_f5-2-1c_dashed (110) \(0.1 \; \mathrm{M}\) \(\ce{ H2SO4 }\) 2003 Kibler et. al. Fig. 5-2-1c (dashed)
kibler_2003_preparation_1_f5-2-1c_solid (110) \(0.1 \; \mathrm{M}\) \(\ce{ H2SO4 }\) 2003 Kibler et. al. Fig. 5-2-1c (solid)
pajkossy_1996_impedance_209_f1a_solid (111) \(0.1 \; \mathrm{M}\) \(\ce{ KClO4 }\) 1996 Pajkossy et. al. Fig. 1a (solid)
pajkossy_1996_impedance_209_f1b_solid (100) \(0.1 \; \mathrm{M}\) \(\ce{ KClO4 }\) 1996 Pajkossy et. al. Fig. 1b (solid)
pajkossy_1996_impedance_209_f3a_dashed (111) \(0.1 \; \mathrm{M}\) \(\ce{ KClO4 }\) 1996 Pajkossy et. al. Fig. 3a (dashed)
pajkossy_1996_impedance_209_f8a_dashed (100) \(0.1 \; \mathrm{M}\) \(\ce{ KClO4 }\) 1996 Pajkossy et. al. Fig. 8a (dashed)
sato_2006_effect_725_f4a_red (111) \(1 \; \mathrm{M}\) \(\ce{ H2SO4 }\) 2006 Sato et. al. Fig. 4a (red)
sato_2006_effect_725_f4b_red (111) \(2.5 \; \mathrm{M}\) \(\ce{ H2SO4 }\) 2006 Sato et. al. Fig. 4b (red)
sato_2006_effect_725_f4c_red (111) \(5 \; \mathrm{M}\) \(\ce{ H2SO4 }\) 2006 Sato et. al. Fig. 4c (red)
sato_2006_effect_725_f4d_red (111) \(7.5 \; \mathrm{M}\) \(\ce{ H2SO4 }\) 2006 Sato et. al. Fig. 4d (red)
shi_1996_chloride_225_f1_dotted (111) \(0.1 \; \mathrm{M}\) \(\ce{ KClO4 }\) 1996 Shi et. al. Fig. 1 (dotted)
shi_1996_chloride_225_f1a_dashed (111) \(0.1 \; \mathrm{M}\) \(\ce{ KClO4 }\) 1996 Shi et. al. Fig. 1a (dashed)
wandlowski_1996_structural_10277_f1a_dashed (100) \(0.05 \; \mathrm{M}\) \(\ce{ NaClO4 }\) 1996 Wandlowski et. al. Fig. 1a (dashed)
wandlowski_1996_structural_10277_f1a_solid (100) \(0.05 \; \mathrm{M}\) \(\ce{ NaBr }\) 1996 Wandlowski et. al. Fig. 1a (solid)
wang_1996_ordered_6672_f1_solid (110) \(0.01 \; \mathrm{M}\) \(\ce{ KI }\) 1996 Wang et. al. Fig. 1 (solid)
wang_1996_ordered_6672_f2a_solid (110) \(0.01 \; \mathrm{M}\) \(\ce{ KI }\) 1996 Wang et. al. Fig. 2a (solid)
wang_1996_ordered_6672_f2b_solid (110) \(0.01 \; \mathrm{M}\) \(\ce{ CsI }\) 1996 Wang et. al. Fig. 2b (solid)

Co

Substrate Electrolyte Year Reference
ando_1997_situ_277_f1a_solid (0001) \(0.05 \; \mathrm{M}\) \(\ce{ Na2SO4 }\) 1997 Ando et. al. Fig. 1a (solid)
foelske_2004_initial_10_f1_solid (poly) \(0.1 \; \mathrm{M}\) \(\ce{ NaOH }\) 2004 Foelske et. al. Fig. 1 (solid)
foelske_2004_initial_10_f2a_solid (0001) \(0.1 \; \mathrm{M}\) \(\ce{ NaOH }\) 2004 Foelske et. al. Fig. 2a (solid)

Cu

Substrate Electrolyte Year Reference
broekmann_1999_in-situ_307_f1_solid (111) \(0.005 \; \mathrm{M}\) \(\ce{ H2SO4 }\) 1999 Broekmann et. al. Fig. 1 (solid)
broekmann_1999_in-situ_307_f2_black (111) \(0.01 \; \mathrm{M}\) \(\ce{ HCl }\) 1999 Broekmann et. al. Fig. 2 (black)
engstfeld_2018_polycrystalline_17743_f4b_1 (100) \(0.1 \; \mathrm{M}\) \(\ce{ KOH }\) 2018 Engstfeld et. al. Fig. 4b (1)
engstfeld_2018_polycrystalline_17743_f4b_2 (100) \(0.1 \; \mathrm{M}\) \(\ce{ KOH }\) 2018 Engstfeld et. al. Fig. 4b (2)
engstfeld_2018_polycrystalline_17743_f4b_3 (100) \(0.1 \; \mathrm{M}\) \(\ce{ KOH }\) 2018 Engstfeld et. al. Fig. 4b (3)
engstfeld_2018_polycrystalline_17743_f4b_4 (100) \(0.1 \; \mathrm{M}\) \(\ce{ NaOH }\) 2018 Engstfeld et. al. Fig. 4b (4)
tiwari_2020_fingerprint_1450_f1_bluebottom (100) \(0.1 \; \mathrm{M}\) \(\ce{ KOH }\) 2020 Tiwari et. al. Fig. 1 (bluebottom)
tiwari_2020_fingerprint_1450_f1_bluetop (100) \(0.1 \; \mathrm{M}\) \(\ce{ KOH }\) 2020 Tiwari et. al. Fig. 1 (bluetop)
tiwari_2020_fingerprint_1450_f1_greenbottom (111) \(0.1 \; \mathrm{M}\) \(\ce{ KOH }\) 2020 Tiwari et. al. Fig. 1 (greenbottom)
tiwari_2020_fingerprint_1450_f1_greentop (111) \(0.1 \; \mathrm{M}\) \(\ce{ KOH }\) 2020 Tiwari et. al. Fig. 1 (greentop)
tiwari_2020_fingerprint_1450_f1_redbottom (110) \(0.1 \; \mathrm{M}\) \(\ce{ KOH }\) 2020 Tiwari et. al. Fig. 1 (redbottom)
tiwari_2020_fingerprint_1450_f1_redtop (110) \(0.1 \; \mathrm{M}\) \(\ce{ KOH }\) 2020 Tiwari et. al. Fig. 1 (redtop)

Fe

Substrate Electrolyte Year Reference
hirai_2000_situ_702_f2_solid (110) \(0.05 \; \mathrm{M}\) \(\ce{ Na2SO4 }\) 2000 Hirai et. al. Fig. 2 (solid)

Ir

Substrate Electrolyte Year Reference
pajkossy_2005_voltammetry_69_f3a_solid (111) \(0.1 \; \mathrm{M}\) \(\ce{ KClO4 }\) 2005 Pajkossy et. al. Fig. 3a (solid)
pajkossy_2005_voltammetry_69_f4a_solid (111) \(0.01 \; \mathrm{M}\) \(\ce{ NaF }\) 2005 Pajkossy et. al. Fig. 4a (solid)
pajkossy_2005_voltammetry_69_f8a_solid (111) \(0.1 \; \mathrm{M}\) \(\ce{ HCl }\) 2005 Pajkossy et. al. Fig. 8a (solid)
pajkossy_2007_voltammetry_113_f1a_solid (100) \(0.1 \; \mathrm{M}\) \(\ce{ HClO4 }\) 2007 Pajkossy et. al. Fig. 1a (solid)
pajkossy_2007_voltammetry_113_f3a_solid (100) \(0.1 \; \mathrm{M}\) \(\ce{ KClO4 }\) 2007 Pajkossy et. al. Fig. 3a (solid)
pajkossy_2007_voltammetry_113_f3b_solid (100) \(0.1 \; \mathrm{M}\) \(\ce{ KClO4 }\) 2007 Pajkossy et. al. Fig. 3b (solid)
wan_1999_situ_6978_f1a_solid (111) \(0.1 \; \mathrm{M}\) \(\ce{ HClO4 }\) 1999 Wan et. al. Fig. 1a (solid)
wan_1999_situ_6978_f1b_dashed (111) \(0.1 \; \mathrm{M}\) \(\ce{ HClO4 }\) 1999 Wan et. al. Fig. 1b (dashed)
wan_1999_situ_6978_f1b_dotted (111) \(0.1 \; \mathrm{M}\) \(\ce{ HClO4 }\) 1999 Wan et. al. Fig. 1b (dotted)
wan_1999_situ_6978_f2_solid (111) \(0.1 \; \mathrm{M}\) \(\ce{ H2SO4 }\) 1999 Wan et. al. Fig. 2 (solid)

Ni

Substrate Electrolyte Year Reference
beden_1985_voltammetric_822_f2a_solid (100) \(0.1 \; \mathrm{M}\) \(\ce{ NaOH }\) 1985 Beden et. al. Fig. 2a (solid)
beden_1985_voltammetric_822_f2b_solid (110) \(0.1 \; \mathrm{M}\) \(\ce{ NaOH }\) 1985 Beden et. al. Fig. 2b (solid)
beden_1985_voltammetric_822_f2c_solid (111) \(0.1 \; \mathrm{M}\) \(\ce{ NaOH }\) 1985 Beden et. al. Fig. 2c (solid)

Pb

Substrate Electrolyte Year Reference
hirai_2003_situ_329_f2_thick (111) \(0.05 \; \mathrm{M}\) \(\ce{ H2SO4 }\) 2003 Hirai et. al. Fig. 2 (thick)
hirai_2003_situ_329_f2_thin (100) \(0.05 \; \mathrm{M}\) \(\ce{ H2SO4 }\) 2003 Hirai et. al. Fig. 2 (thin)

Pd

Substrate Electrolyte Year Reference
hara_2007_preparation_5733_f2a_solid (111) \(0.1 \; \mathrm{M}\) \(\ce{ H2SO4 }\) 2007 Hara et. al. Fig. 2a (solid)
hara_2007_preparation_5733_f2b_solid (100) \(0.1 \; \mathrm{M}\) \(\ce{ H2SO4 }\) 2007 Hara et. al. Fig. 2b (solid)
hara_2007_preparation_5733_f2c_solid (110) \(0.1 \; \mathrm{M}\) \(\ce{ H2SO4 }\) 2007 Hara et. al. Fig. 2c (solid)
hara_2007_preparation_5733_f6a_solid (111) \(0.1 \; \mathrm{M}\) \(\ce{ HClO4 }\) 2007 Hara et. al. Fig. 6a (solid)
hara_2007_preparation_5733_f6b_solid (100) \(0.1 \; \mathrm{M}\) \(\ce{ HClO4 }\) 2007 Hara et. al. Fig. 6b (solid)
hara_2007_preparation_5733_f6c_solid (110) \(0.1 \; \mathrm{M}\) \(\ce{ HClO4 }\) 2007 Hara et. al. Fig. 6c (solid)

Pt

Substrate Electrolyte Year Reference
abe_2019_electro-oxidation_315_f2a1_black (111) \(0.1 \; \mathrm{M}\) \(\ce{ HClO4 }\) 2019 Abe et. al. Fig. 2a1 (black)
abe_2019_electro-oxidation_315_f2b1_black (10 9 8) \(0.1 \; \mathrm{M}\) \(\ce{ HClO4 }\) 2019 Abe et. al. Fig. 2b1 (black)
abe_2019_electro-oxidation_315_f2c1_black (432) \(0.1 \; \mathrm{M}\) \(\ce{ HClO4 }\) 2019 Abe et. al. Fig. 2c1 (black)
abe_2019_electro-oxidation_315_f3a1_black (110) \(0.1 \; \mathrm{M}\) \(\ce{ HClO4 }\) 2019 Abe et. al. Fig. 3a1 (black)
abe_2019_electro-oxidation_315_f3b1_black (431) \(0.1 \; \mathrm{M}\) \(\ce{ HClO4 }\) 2019 Abe et. al. Fig. 3b1 (black)
abe_2019_electro-oxidation_315_f4a1_black (100) \(0.1 \; \mathrm{M}\) \(\ce{ HClO4 }\) 2019 Abe et. al. Fig. 4a1 (black)
abe_2019_electro-oxidation_315_f4b1_black (10 2 1) \(0.1 \; \mathrm{M}\) \(\ce{ HClO4 }\) 2019 Abe et. al. Fig. 4b1 (black)
arulmozhi_2018_design_113_f8_spherical (poly) \(0.5 \; \mathrm{M}\) \(\ce{ H2SO4 }\) 2018 Arulmozhi et. al. Fig. 8 (spherical)
briega-martos_2018_understandings_j3045_f1a_black (111) \(2 \; \mathrm{M}\) \(\ce{ HClO4 }\) 2018 Briega-Martos et. al. Fig. 1a (black)
briega-martos_2018_understandings_j3045_f1b_black (111) \(1 \; \mathrm{M}\) \(\ce{ HClO4 }\) 2018 Briega-Martos et. al. Fig. 1b (black)
briega-martos_2018_understandings_j3045_f1c_black (111) \(0.1 \; \mathrm{M}\) \(\ce{ HClO4 }\) 2018 Briega-Martos et. al. Fig. 1c (black)
briega-martos_2020_hydrogen_135452_f3_black (111) \(\ce{ HClO4 }\) 2020 Briega-Martos et. al. Fig. 3 (black)
briega-martos_2020_hydrogen_135452_f3_blue (15 15 14) \(\ce{ HClO4 }\) 2020 Briega-Martos et. al. Fig. 3 (blue)
briega-martos_2020_hydrogen_135452_f3_brown (553) \(\ce{ HClO4 }\) 2020 Briega-Martos et. al. Fig. 3 (brown)
briega-martos_2020_hydrogen_135452_f3_darkblue (776) \(\ce{ HClO4 }\) 2020 Briega-Martos et. al. Fig. 3 (darkblue)
briega-martos_2020_hydrogen_135452_f3_green (10 10 9) \(\ce{ HClO4 }\) 2020 Briega-Martos et. al. Fig. 3 (green)
briega-martos_2020_hydrogen_135452_f3_olive (221) \(\ce{ HClO4 }\) 2020 Briega-Martos et. al. Fig. 3 (olive)
briega-martos_2020_hydrogen_135452_f3_purple (554) \(\ce{ HClO4 }\) 2020 Briega-Martos et. al. Fig. 3 (purple)
chen_2024_deconvolution_4958_f1a_grey (111) \(\ce{ HClO4 }\) 2024 Chen et. al. Fig. 1a (grey)
chen_2024_deconvolution_4958_f1b_grey (100) \(\ce{ HClO4 }\) 2024 Chen et. al. Fig. 1b (grey)
chen_2024_deconvolution_4958_f3b_black (100) \(\ce{ HClO4 }\) 2024 Chen et. al. Fig. 3b (black)
chen_2024_deconvolution_4958_f3b_orange (19 1 1) \(\ce{ HClO4 }\) 2024 Chen et. al. Fig. 3b (orange)
chen_2024_deconvolution_4958_f3b_red (911) \(\ce{ HClO4 }\) 2024 Chen et. al. Fig. 3b (red)
chen_2024_deconvolution_4958_f3c_green (510) \(\ce{ HClO4 }\) 2024 Chen et. al. Fig. 3c (green)
chen_2024_deconvolution_4958_f3c_olive (10 1 0) \(\ce{ HClO4 }\) 2024 Chen et. al. Fig. 3c (olive)
clavilier_1980_preparation_205_f2_solid (110) \(0.5 \; \mathrm{M}\) \(\ce{ H2SO4 }\) 1980 Clavilier et. al. Fig. 2 (solid)
clavilier_1980_role_211_f1_black (111) \(0.5 \; \mathrm{M}\) \(\ce{ H2SO4 }\) 1980 Clavilier et. al. Fig. 1 (black)
clavilier_1980_role_211_f2_black (111) \(0.1 \; \mathrm{M}\) \(\ce{ HClO4 }\) 1980 Clavilier et. al. Fig. 2 (black)
clavilier_1990_situ_1_f1_solid (111) \(0.5 \; \mathrm{M}\) \(\ce{ H2SO4 }\) 1990 Clavilier et. al. Fig. 1 (solid)
clavilier_1990_situ_1_f5_10-10-9 (10 10 9) \(0.5 \; \mathrm{M}\) \(\ce{ H2SO4 }\) 1990 Clavilier et. al. Fig. 5 (10-10-9)
clavilier_1990_situ_1_f5_110 (110) \(0.5 \; \mathrm{M}\) \(\ce{ H2SO4 }\) 1990 Clavilier et. al. Fig. 5 (110)
clavilier_1990_situ_1_f5_554 (554) \(0.5 \; \mathrm{M}\) \(\ce{ H2SO4 }\) 1990 Clavilier et. al. Fig. 5 (554)
clavilier_1990_situ_1_f5_775 (775) \(0.5 \; \mathrm{M}\) \(\ce{ H2SO4 }\) 1990 Clavilier et. al. Fig. 5 (775)
domke_2003_determination_115_f2_dash-dot (711) \(0.1 \; \mathrm{M}\) \(\ce{ HClO4 }\) 2003 Domke et. al. Fig. 2 (dash-dot)
domke_2003_determination_115_f2_dash-dot-dot (511) \(0.1 \; \mathrm{M}\) \(\ce{ HClO4 }\) 2003 Domke et. al. Fig. 2 (dash-dot-dot)
domke_2003_determination_115_f2_dashed (29 1 1) \(0.1 \; \mathrm{M}\) \(\ce{ HClO4 }\) 2003 Domke et. al. Fig. 2 (dashed)
domke_2003_determination_115_f2_dotted (11 1 1) \(0.1 \; \mathrm{M}\) \(\ce{ HClO4 }\) 2003 Domke et. al. Fig. 2 (dotted)
domke_2003_determination_115_f2_solid (100) \(0.1 \; \mathrm{M}\) \(\ce{ HClO4 }\) 2003 Domke et. al. Fig. 2 (solid)
domke_2003_determination_115_f3b_dotted (311) \(0.1 \; \mathrm{M}\) \(\ce{ HClO4 }\) 2003 Domke et. al. Fig. 3b (dotted)
feng_2017_new_1003_f8_upperleft (POSC) \(0.1 \; \mathrm{M}\) \(\ce{ H2SO4 }\) 2017 Feng et. al. Fig. 8 (upperleft)
feng_2017_new_1003_f9_solid (POSC) \(0.1 \; \mathrm{M}\) \(\ce{ H2SO4 }\) 2017 Feng et. al. Fig. 9 (solid)
ganassin_2015_non-covalent_8349_f2a_black (111) \(0.05 \; \mathrm{M}\) \(\ce{ H2SO4 }\) 2015 Ganassin et. al. Fig. 2a (black)
ganassin_2015_non-covalent_8349_f2a_red (111) \(0.1 \; \mathrm{M}\) \(\ce{ HClO4 }\) 2015 Ganassin et. al. Fig. 2a (red)
garcia-araez_2011_enthalpic_501_f1a_black (111) \(0.001 \; \mathrm{M}\) \(\ce{ HClO4 }\) 2011 Garcia-Araez et. al. Fig. 1a (black)
garcia-araez_2011_enthalpic_501_f1a_green (110) \(0.001 \; \mathrm{M}\) \(\ce{ HClO4 }\) 2011 Garcia-Araez et. al. Fig. 1a (green)
garcia-araez_2011_enthalpic_501_f1a_red (100) \(0.001 \; \mathrm{M}\) \(\ce{ HClO4 }\) 2011 Garcia-Araez et. al. Fig. 1a (red)
gomez-marin_2012_pt-111_558_f1_black (111) \(0.1 \; \mathrm{M}\) \(\ce{ HClO4 }\) 2012 Gómez-Marín et. al. Fig. 1 (black)
gomez-marin_2012_pt-111_558_f1_blue (544) \(0.1 \; \mathrm{M}\) \(\ce{ HClO4 }\) 2012 Gómez-Marín et. al. Fig. 1 (blue)
gomez-marin_2012_pt-111_558_f1_red (554) \(0.1 \; \mathrm{M}\) \(\ce{ HClO4 }\) 2012 Gómez-Marín et. al. Fig. 1 (red)
gomez-marin_2012_pt-111_558_f2_blue (111) \(0.005 \; \mathrm{M}\) \(\ce{ HClO4 }\) 2012 Gómez-Marín et. al. Fig. 2 (blue)
gomez-marin_2012_pt-111_558_f2_pink (111) \(0.022 \; \mathrm{M}\) \(\ce{ HClO4 }\) 2012 Gómez-Marín et. al. Fig. 2 (pink)
gomez-marin_2012_pt-111_558_f2_red (111) \(0.1 \; \mathrm{M}\) \(\ce{ HClO4 }\) 2012 Gómez-Marín et. al. Fig. 2 (red)
gomez_1993_electrochemical_189_f1_solid (110) \(0.5 \; \mathrm{M}\) \(\ce{ H2SO4 }\) 1993 Gómez et. al. Fig. 1 (solid)
gomez_2004_effect_228_f1_dotted (111) \(0.1 \; \mathrm{M}\) \(\ce{ HClO4 }\) 2004 Gómez et. al. Fig. 1 (dotted)
gomez_2004_effect_228_f2_dotted (100) \(0.1 \; \mathrm{M}\) \(\ce{ HClO4 }\) 2004 Gómez et. al. Fig. 2 (dotted)
gomez_2004_effect_228_f3_dotted (110) \(0.1 \; \mathrm{M}\) \(\ce{ HClO4 }\) 2004 Gómez et. al. Fig. 3 (dotted)
kibler_2000_in-situ_73_f4a_black (100) \(0.1 \; \mathrm{M}\) \(\ce{ H2SO4 }\) 2000 Kibler et. al. Fig. 4a (black)
kibler_2000_in-situ_73_f5a_black (100) \(0.1 \; \mathrm{M}\) \(\ce{ H2SO4 }\) 2000 Kibler et. al. Fig. 5a (black)
kibler_2000_in-situ_73_f7a_black (100) \(0.1 \; \mathrm{M}\) \(\ce{ H2SO4 }\) 2000 Kibler et. al. Fig. 7a (black)
kibler_2000_in-situ_73_f8a_black (100) \(0.1 \; \mathrm{M}\) \(\ce{ H2SO4 }\) 2000 Kibler et. al. Fig. 8a (black)
nishihara_1995_underpotential_75_f1a_solid (955) \(0.5 \; \mathrm{M}\) \(\ce{ H2SO4 }\) 1995 nishihara et. al. Fig. 1a (solid)
nishihara_1995_underpotential_75_f2a_solid (322) \(0.5 \; \mathrm{M}\) \(\ce{ H2SO4 }\) 1995 nishihara et. al. Fig. 2a (solid)
nishihara_1995_underpotential_75_f3a_solid (15,11,11) \(0.5 \; \mathrm{M}\) \(\ce{ H2SO4 }\) 1995 nishihara et. al. Fig. 3a (solid)
nishihara_1995_underpotential_75_f4a_solid (544) \(0.5 \; \mathrm{M}\) \(\ce{ H2SO4 }\) 1995 nishihara et. al. Fig. 4a (solid)
nishihara_1995_underpotential_75_f5a_solid (10,9,9) \(0.5 \; \mathrm{M}\) \(\ce{ H2SO4 }\) 1995 nishihara et. al. Fig. 5a (solid)
nishihara_1995_underpotential_75_f6a_solid (41,39,39) \(0.5 \; \mathrm{M}\) \(\ce{ H2SO4 }\) 1995 nishihara et. al. Fig. 6a (solid)
nishihara_1995_underpotential_75_f7a_solid (111) \(0.5 \; \mathrm{M}\) \(\ce{ H2SO4 }\) 1995 nishihara et. al. Fig. 7a (solid)
pajkossy_2001_double_3063_f2_inset (111) \(0.1 \; \mathrm{M}\) \(\ce{ HClO4 }\) 2001 Pajkossy et. al. Fig. 2 (inset)
pajkossy_2001_double_3063_f5a_solid (111) \(0.1 \; \mathrm{M}\) \(\ce{ KClO4 }\) 2001 Pajkossy et. al. Fig. 5a (solid)
pajkossy_2001_double_3063_f6a_solid (111) \(0.1 \; \mathrm{M}\) \(\ce{ NaF }\) 2001 Pajkossy et. al. Fig. 6a (solid)
sandbeck_2019_dissolution_2997_f1_solid_blue (100) \(0.1 \; \mathrm{M}\) \(\ce{ HClO4 }\) 2019 Sandbeck et. al. Fig. 1 (solid blue)
sandbeck_2019_dissolution_2997_f1_solid_green (110) \(0.1 \; \mathrm{M}\) \(\ce{ HClO4 }\) 2019 Sandbeck et. al. Fig. 1 (solid green)
sandbeck_2019_dissolution_2997_f1_solid_red (111) \(0.1 \; \mathrm{M}\) \(\ce{ HClO4 }\) 2019 Sandbeck et. al. Fig. 1 (solid red)
schnaidt_2017_combined_4166_f2_solid (111) \(0.5 \; \mathrm{M}\) \(\ce{ H2SO4 }\) 2017 Schnaidt et. al. Fig. 2 (solid)
taguchi_2007_electrochemical_6023_f2a_solid (111) \(\ce{ HClO4 }\) 2007 Taguchi et. al. Fig. 2a (solid)
taguchi_2007_electrochemical_6023_f2b_solid (776) \(\ce{ HClO4 }\) 2007 Taguchi et. al. Fig. 2b (solid)
taguchi_2007_electrochemical_6023_f2c_solid (554) \(\ce{ HClO4 }\) 2007 Taguchi et. al. Fig. 2c (solid)
taguchi_2007_electrochemical_6023_f2d_solid (775) \(\ce{ HClO4 }\) 2007 Taguchi et. al. Fig. 2d (solid)
taguchi_2007_electrochemical_6023_f2e_solid (332) \(\ce{ HClO4 }\) 2007 Taguchi et. al. Fig. 2e (solid)
taguchi_2007_electrochemical_6023_f2f_solid (553) \(\ce{ HClO4 }\) 2007 Taguchi et. al. Fig. 2f (solid)
taguchi_2007_electrochemical_6023_f2g_solid (221) \(\ce{ HClO4 }\) 2007 Taguchi et. al. Fig. 2g (solid)
taguchi_2007_electrochemical_6023_f2h_solid (331) \(\ce{ HClO4 }\) 2007 Taguchi et. al. Fig. 2h (solid)
taguchi_2007_electrochemical_6023_f2i_solid (110) \(\ce{ HClO4 }\) 2007 Taguchi et. al. Fig. 2i (solid)

Rh

Substrate Electrolyte Year Reference
anjos_2010_underpotential_8_f1a_solid (111) \(0.1 \; \mathrm{M}\) \(\ce{ H2SO4 }\) 2010 Anjos et. al. Fig. 1a (solid)
anjos_2010_underpotential_8_f1b_solid (100) \(0.1 \; \mathrm{M}\) \(\ce{ H2SO4 }\) 2010 Anjos et. al. Fig. 1b (solid)
anjos_2010_underpotential_8_f2a_solid (111) \(0.1 \; \mathrm{M}\) \(\ce{ HClO4 }\) 2010 Anjos et. al. Fig. 2a (solid)
anjos_2010_underpotential_8_f2b_solid (100) \(0.1 \; \mathrm{M}\) \(\ce{ HClO4 }\) 2010 Anjos et. al. Fig. 2b (solid)

Ru

Substrate Electrolyte Year Reference
alves_2011_electrochemistry_6010_f1a_solid (0001) \(0.1 \; \mathrm{M}\) \(\ce{ HClO4 }\) 2011 Alves et. al. Fig. 1a (solid)