Link to rendered EMF series.
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LaTex Code
#Electrode Reaction
${O_3}(g) + 2{H^ + } + 2{e^ - } \to O_{2}(g) + {H_2}O$
${H_{2}O_{2}} +{2H^ {+}} + 2{e^ - } \to 2{H_2}O$
${Au^ {3+} } + 3{e^ - } \to {Au}$
${Cl_{2}(g) } + 2{e^ - } \to {2 Cl^{-}}$
${Pt^ {2+} } + 2{e^ - } \to {Pt}$
${O_2} + 4{H^ + } + 4{e^ - } \to 2{H_2}O$
${Pd^ {2+} } + 2{e^ - } \to {Pd}$
${H_{2}O_{2}} + 2{e^ - } \to {2 OH^{-}}$
${Hg^ {2+} } + 2{e^ - } \to {Hg}$
${Ag^ {+} } + {e^ - } \to {Ag}$
${Cu^ {+} } + {e^ - } \to {Pd}$
${O_2} + 2{H_2}O + 4{e^ - } \to 4O{H^ - }$
${Cu^ {2+} } + 2{e^ - } \to {Cu}$
${2H^ {+} } + 2{e^ - } \to {H_2}$
${Fe^ {3+} } + 3{e^ - } \to {Fe}$
${Pb^ {2+} } + 2{e^ - } \to {Pb}$
${Sn^ {2+} } + 2{e^ - } \to {Sn}$
${Ni^ {2+} } + 2{e^ - } \to {Ni}$
${Co^ {2+} } + 2{e^ - } \to {Co}$
${In^ {3+} } + 3{e^ - } \to {In}$
${Cd^ {2+} } + 2{e^ - } \to {Cd}$
${Fe^ {2+} } + 2{e^ - } \to {Fe}$
${Ga^ {3+} } + 3{e^ - } \to {Ga}$
${Cr^ {3+} } + 3{e^ - } \to {Cr}$
${Zn^ {2+} } + 2{e^ - } \to {Zn}$
${Mn^ {2+} } + 2{e^ - } \to {Mn}$
${Ti^ {3+} } + 3{e^ - } \to {Ti}$
${Zr^ {4+} } + 4{e^ - } \to {Zr}$
${Ti^ {2+} } + 2{e^ - } \to {Ti}$
${Al^ {3+} } + 3{e^ - } \to {Al}$
${Mg^ {2+} } + 2{e^ - } \to {Mg}$
${Na^ {2+} } + 2{e^ - } \to {Na}$
${Ca^ {2+} } + 2{e^ - } \to {Ca}$
${K^ {2+} } + 2{e^ - } \to {K}$
${Li^ {2+} } + 2{e^ - } \to {Li}$
References
- R. W. Revie, H. H. Uhlig, “Corrosion and corrosion control: an introduction to corrosion science and engineering”, Chapter 3, p.31 (2008). Buy book at Amazon or Kindle Edition.
- P. R. Roberge, “Corrosion Engineering: Principles and Plractice”, Chapter 4, Table 4.1, McGraw-Hill Professional (2008). Buy book at Amazon or Kindle Edition.
