Free energy relationships in electrochemistry: a history that started in 1935
10.1007/s10008-011-1394-8
Crossref journal-article
Springer Science and Business Media LLC
Journal of Solid State Electrochemistry (297)
Bibliography

Appleby, A. J., & Zagal, J. H. (2011). Free energy relationships in electrochemistry: a history that started in 1935. Journal of Solid State Electrochemistry, 15(7–8), 1811–1832.

Authors 2
  1. Anthony John Appleby (first)
  2. José Heráclito Zagal (additional)
References 138 Referenced 65
  1. Frumkin AN (1932) Z Phys Chem Leipz 160:120 / Z Phys Chem Leipz by AN Frumkin (1932)
  2. Bockris JOM, Khan SUM (1993) Surface electrochemistry, a molecular level approach. Plenum, New York (10.1007/978-1-4615-3040-4) / Surface electrochemistry, a molecular level approach by JOM Bockris (1993)
  3. Marković NM, Ross PN (2002) Surf Sci Rep 45:117 (10.1016/S0167-5729(01)00022-X) / Surf Sci Rep by NM Marković (2002)
  4. Markovíc NM, Ross PN (1999) Electrocatalysis at well-defined surfaces: kinetics of oxygen reduction and hydrogen oxidation/evolution on Pt(hkl) electrodes. In: Wieckowski A (ed) Interfacial electrochemistry: theory, experiment, and applications. Marcel Dekker, New York, pp 821–841 / Interfacial electrochemistry: theory, experiment, and applications by NM Markovíc (1999)
  5. Schmidt TJ, Stamenkovic V, Arenz M, Markovic NM, Ross PN (2002) Electrochim Acta 47:3765 (10.1016/S0013-4686(02)00347-X) / Electrochim Acta by TJ Schmidt (2002)
  6. Blizanac BB, Stamenkovic V, Marković NM (2007) Z Phys Chem 221:1379 (10.1524/zpch.2007.221.9-10.1379) / Z Phys Chem by BB Blizanac (2007)
  7. Stamenkovic VR, Mun BS, Arenz M, Mayrhofer KJJ, Lucas CA, Wang G-F, Ross PN, Marković NM (2007) Nat Mater 6:241 (10.1038/nmat1840) / Nat Mater by VR Stamenkovic (2007)
  8. Stamenkovic VR, Fowler B, Mun BS, Wang G, Ross PN, Lucas CA, Marković NM (2007) Science 315:493 (10.1126/science.1135941) / Science by VR Stamenkovic (2007)
  9. Damjanovic A, Brusic V (1967) Electrochim Acta 12:615 (10.1016/0013-4686(67)85030-8) / Electrochim Acta by A Damjanovic (1967)
  10. Schrödinger E (1926) Phys Rev 28:1049 (10.1103/PhysRev.28.1049) / Phys Rev by E Schrödinger (1926)
  11. Gurney RW (1931) Proc Roy Soc A134:137 (10.1098/rspa.1931.0187) / Proc Roy Soc by RW Gurney (1931)
  12. Marcus RA (1956) J Chem Phys 24:966 (10.1063/1.1742723) / J Chem Phys by RA Marcus (1956)
  13. Conway BE (1964) Proton solvation and proton transfer processes in solution. In: Bockris JOM, Conway BE (eds) Modern aspects of electrochemistry, vol 3. Butterworth, London, pp 43–148 / Modern aspects of electrochemistry by BE Conway (1964)
  14. Appleby AJ (2005) Electron transfer reactions with and without ion transfer. In: Bockris JOM, Conway BE, Vayenas CG, White RE, Gamboa-Adelco ME (eds) Modern aspects of electrochemistry, vol 38. Kluwer, New York, pp 175–301 (10.1007/0-387-25838-8_2) / Modern aspects of electrochemistry by AJ Appleby (2005)
  15. Marcus RA (1957) J Chem Phys 26:867 (10.1063/1.1743423) / J Chem Phys by RA Marcus (1957)
  16. Marcus RA (1963) J Chem Phys 38:1858 (10.1063/1.1733886) / J Chem Phys by RA Marcus (1963)
  17. Marcus RA (1963) 39:1734 (10.1063/1.1734522)
  18. Franck J (1926) Trans Faraday Soc 21:536 (10.1039/tf9262100536) / Trans Faraday Soc by J Franck (1926)
  19. Franck J (1926) Z Phys Chem 120:144 (10.1515/zpch-1926-12018) / Z Phys Chem by J Franck (1926)
  20. Condon EU (1926) Phys Rev 28:1182 (10.1103/PhysRev.28.1182) / Phys Rev by EU Condon (1926)
  21. Condon EU (1928) Phys Rev 32:858 (10.1103/PhysRev.32.858) / Phys Rev by EU Condon (1928)
  22. Born M, Oppenheimer R (1927) Annal Phys 84:457 (10.1002/andp.19273892002) / Annal Phys by M Born (1927)
  23. Marcus RA (1960) Disc Faraday Soc 29:21 (10.1039/DF9602900021) / Disc Faraday Soc by RA Marcus (1960)
  24. Marcus RA (1963) J Phys Chem 67:853, 2889 (10.1021/j100798a033) / J Phys Chem by RA Marcus (1963)
  25. Marcus RA (1965) J Chem Phys 43:679 (10.1063/1.1696792) / J Chem Phys by RA Marcus (1965)
  26. Marcus RA (1968) J Phys Chem 72:891 (10.1021/j100849a019) / J Phys Chem by RA Marcus (1968)
  27. Marcus RA, Cohen A (1968) J Phys Chem 72:4249 (10.1021/j100858a052) / J Phys Chem by RA Marcus (1968)
  28. Johnston HS (1960) Adv Chem Phys 3:131 (10.1002/9780470143490.ch4) / Adv Chem Phys by HS Johnston (1960)
  29. Hush NS (1957) Z Elektrochem 61:734 / Z Elektrochem by NS Hush (1957)
  30. Hush NS (1958) J Chem Phys 28:962 (10.1063/1.1744305) / J Chem Phys by NS Hush (1958)
  31. Hush NS (1961) Trans Faraday Soc 57:557 (10.1039/tf9615700557) / Trans Faraday Soc by NS Hush (1961)
  32. Levich VG (1966) Present state of the theory of oxidation–reduction in solution (bulk and electrode reactions). In: Delahay P (ed) Advances in electrochemistry and electrochemical engineering, vol 4. Interscience, New York, pp 249–371 / Advances in electrochemistry and electrochemical engineering by VG Levich (1966)
  33. Levich VG, Eyring HD, Henderson D, Jost Y, Levich VG (1970) Kinetics of reactions with charge transport. In: Eyring HD, Henderson D, Jost Y (eds) Physical chemistry, vol 9B. Academic, New York, pp 985–1074 / Physical chemistry by VG Levich (1970)
  34. Dogonadze RR (1972) Theory of molecular electrode kinetics. In: Hush NS (ed) Reactions of molecules at electrodes. Wiley, New York, pp 135–227 / Reactions of molecules at electrodes by RR Dogonadze (1972)
  35. Appleby AJ, Bockris JO’M, Sen RK, Conway BE (1972) Quantum mechanics of charge transfer at interfaces. In: Buckingham AD, Bockris JO’M (eds) MTP Int Rev Sci Phys Chem Ser 1, vol 6. Butterworth, London, pp 1–40 / MTP Int Rev Sci Phys Chem Ser 1, vol 6 by AJ Appleby (1972)
  36. Dogonadze RR, Kuznetsov AM, Levich VG (1968) Electrochim Acta 13:1095 (10.1016/0013-4686(68)80038-6) / Electrochim Acta by RR Dogonadze (1968)
  37. Dogonadze RR, Kuznetsov AM (1983) Quantum electrochemical kinetics: continuum theory. In: Conway BE, Bockris JO’M, Yeager E, Khan SUM, White RE (eds) Comprehensive treatise on electrochemistry. Plenum, New York, pp 1–40 (10.1007/978-1-4613-3584-9_1) / Comprehensive treatise on electrochemistry by RR Dogonadze (1983)
  38. Bernal JD, Fowler RH (1933) J Chem Phys 1:515 (10.1063/1.1749327) / J Chem Phys by JD Bernal (1933)
  39. Koper MTM, Schmickler W (1998) A unified model for electron and ion transfer reactions on metal electrodes. In: Lipkowski J, Ross PN (eds) Electrocatalysis. Wiley, New York, pp 291–322 / Electrocatalysis by MTM Koper (1998)
  40. Laidler KJ, Sacher E (1964) Theories of elementary electron transfer reactions. In: Bockris JO’M, Conway BE (eds) Modern aspects of electrochemistry, vol 3. Butterworth, London, pp 1–42 / Modern aspects of electrochemistry by KJ Laidler (1964)
  41. Conway BE, Bockris JO’M (1961) Electrochim Acta 3:340 (10.1016/0013-4686(61)85009-3) / Electrochim Acta by BE Conway (1961)
  42. Appleby AJ (1974) Electrocatalysis. In: Bockris BE, Conway BE (eds) Modern aspects of electrochemistry, vol 3. Butterworth, London, pp 369–478 (10.1007/978-1-4615-7443-9_5) / Modern aspects of electrochemistry by AJ Appleby (1974)
  43. Booth F (1951) J Chem Phys 19:391 (10.1063/1.1748233) / J Chem Phys by F Booth (1951)
  44. Khan SUM, Bockris JO’M (1983) Molecular aspects of quantum electrode kinetics. In: Conway BE, Bockris JO’M, Yeager E, Khan SUM, White RE (eds) Comprehensive treatise on electrochemistry. Plenum, New York, pp 41–86 (10.1007/978-1-4613-3584-9_2) / Comprehensive treatise on electrochemistry by SUM Khan (1983)
  45. Krishtalik LI (1957) Zh Fiz Khim 31:33 / Zh Fiz Khim by LI Krishtalik (1957)
  46. Miller JR, Calcaterra LT, Closs GL (1984) J Am Chem Soc 106:3047 (10.1021/ja00322a058) / J Am Chem Soc by JR Miller (1984)
  47. Kadhum AAH, Salmon GA (1982) Faraday Disc Chem Soc 74:191 / Faraday Disc Chem Soc by AAH Kadhum (1982)
  48. Chidsey CED (1991) Science 251:919 (10.1126/science.251.4996.919) / Science by CED Chidsey (1991)
  49. Nahir TM, Clark RA, Bowden EF (1994) Anal Chem 66:2595 (10.1021/ac00087a027) / Anal Chem by TM Nahir (1994)
  50. McLendon G, Hake R (1992) Chem Revs 92:481 (10.1021/cr00011a007) / Chem Revs by G McLendon (1992)
  51. Zhang J, Kuznetsov AM, Medvedev IG, Chi Q, Albrecht T, Jensen PS, Ulstrup J (2008) Chem Revs 108:2737 (10.1021/cr068073+) / Chem Revs by J Zhang (2008)
  52. McLendon G (1988) Acc Chem Res 21:160 (10.1021/ar00148a005) / Acc Chem Res by G McLendon (1988)
  53. Kakitani T, Matanaga N (1985) J Phys Chem 89:8 (10.1021/j100247a004) / J Phys Chem by T Kakitani (1985)
  54. Fletcher S (2007) J Solid State Electrochem 11:965 (10.1007/s10008-007-0313-5) / J Solid State Electrochem by S Fletcher (2007)
  55. Fletcher S (2008) J Solid State Electrochem 12:765 (10.1007/s10008-007-0442-x) / J Solid State Electrochem by S Fletcher (2008)
  56. Fletcher S (2008) J Solid State Electrochem 12:1511 (10.1007/s10008-008-0609-0) / J Solid State Electrochem by S Fletcher (2008)
  57. Tafel J (1905) Z Phys Chem 50:641 (10.1515/zpch-1905-5043) / Z Phys Chem by J Tafel (1905)
  58. Petrii OA, Nazmutdinov RR, Bronshtein MD, Tsirlina GA (2007) Electrochim Acta 52:3493 (10.1016/j.electacta.2006.10.014) / Electrochim Acta by OA Petrii (2007)
  59. Hupp J, Ram MS (1990) J Phys Chem 94:2378 (10.1021/j100369a035) / J Phys Chem by J Hupp (1990)
  60. Fletcher SJ (2009) Solid State Electrochem 13:537 (10.1007/s10008-008-0670-8) / Solid State Electrochem by SJ Fletcher (2009)
  61. Parsons P, quoted by Hoar TP (1956) in Proc 8th Meeting C.I.T.CE., Madrid, Butterworth, London p 439
  62. Schmickler W, Santos E (2010) Interfacial Electrochemistry, 2nd edn. Springer, Heidelberg (10.1007/978-3-642-04937-8) / Interfacial Electrochemistry by W Schmickler (2010)
  63. Conway BE, Bockris JO’M, Yeager E, Khan SUM, White RE (eds) (1983) Comprehensive treatise of electrochemistry. Plenum, New York / Comprehensive treatise of electrochemistry (1983)
  64. Santos E, Lundin A, Pöttin K, Quaino P, Schmickler W (2009) J Solid State Electrochem 13:1101 (10.1007/s10008-008-0702-4) / J Solid State Electrochem by E Santos (2009)
  65. Calvo E (2002) Fundamentals. The current–potential relationship. In: Bard AJ, Stratmann M, Gileadi E, Urbakh M (eds) Encyclopedia of electrochemistry, thermodynamics and electrified interfaces. 1:3 Wiley, pp 3–30
  66. Conway BE (1965) Theory and principles of electrode processes. Ronald, New York / Theory and principles of electrode processes by BE Conway (1965)
  67. Kiebler LA (2006) Chem Phys Chem 7:98 / Chem Phys Chem by LA Kiebler (2006)
  68. Bockris JO’M, Mauser H (1959) Can J Chem 37:475 (10.1139/v59-061) / Can J Chem by JO’M Bockris (1959)
  69. Appleby AJ (1983) Electrocatalysis. In: Conway BE, Bockris JO’M, Yeager E, Khan SUM, White RE (eds) Comprehensive treatise of electrochemistry, vol 2. Plenum, New York, pp 173–239 (10.1007/978-1-4613-3584-9_4) / Comprehensive treatise of electrochemistry, vol by AJ Appleby (1983)
  70. Santos E, Schmickler W (2010) Recent advances in theoretical aspects of electrocatalysis. In: Balbuena P, Subramanian V (eds) Theory and experiment in electrocatalysis. Modern aspects of electrochemistry, vol 50. Springer, New York, pp 25–70 (10.1007/978-1-4419-5594-4_2)
  71. Sabatier P (1911) Ber Deutsch Chem Gesell 44:1984 (10.1002/cber.19110440303) / Ber Deutsch Chem Gesell by P Sabatier (1911)
  72. Lexa D, Mispelter J, Savéant JM (1981) J Am Chem Soc 103:6806 (10.1021/ja00413a004) / J Am Chem Soc by D Lexa (1981)
  73. Lexa D, Savéant JM, Wang DL (1986) Organometalics 5:1428 (10.1021/om00138a022) / Organometalics by D Lexa (1986)
  74. Lexa D, Savéant JM, Su K-B, Wang DL (1987) J Am Chem Soc 109:6464 (10.1021/ja00255a036) / J Am Chem Soc by D Lexa (1987)
  75. Lexa D, Savéant JM, Schäfter HJ, Su K-B, Vering B, Wang DL (1990) J Am Chem Soc 112:6162 (10.1021/ja00173a002) / J Am Chem Soc by D Lexa (1990)
  76. Savéant JM (2006) Elements of molecular and biomolecular electrochemistry. Wiley, Hoboken, pp 251–296 (10.1002/0471758078.ch4) / Elements of molecular and biomolecular electrochemistry by JM Savéant (2006)
  77. Astruc D (1995) Electron transfer and radical processes in transition-metal chemistry. VHC Publishers Inc, New York
  78. Savéant JM (1987) J Am Chem Soc 109:6788 (10.1021/ja00256a037) / J Am Chem Soc by JM Savéant (1987)
  79. Savéant JM (1993) Acc Chem Res 26:455 (10.1021/ar00033a001) / Acc Chem Res by JM Savéant (1993)
  80. German ED, Kuznetsov AM (1994) J Phys Chem 98:6120 (10.1021/j100075a014) / J Phys Chem by ED German (1994)
  81. Workentin MS, Maran F, Wayner DDM (1995) J Am Chem Soc 117:2120 (10.1021/ja00112a037) / J Am Chem Soc by MS Workentin (1995)
  82. Donker RL, Maran F, Wayner DDM, Workentin MS (1999) J Am Chem Soc 121:7248 / J Am Chem Soc by RL Donker (1999)
  83. Maran F, Wayner DDM, Workentin MS (2001) Adv Phys Org Chem 36:85 (10.1016/S0065-3160(01)36004-5) / Adv Phys Org Chem by F Maran (2001)
  84. Santos E, Koper MTM, Schmickler W (2008) Chem Phys 344:195 (10.1016/j.chemphys.2008.01.016) / Chem Phys by E Santos (2008)
  85. Koper MTM, Voth GA (1998) Phys Lett 282:100 / Phys Lett by MTM Koper (1998)
  86. Calhoun A, Koper MTM, Voth GA (1999) J Phys Chem B 103:3442 (10.1021/jp984696i) / J Phys Chem B by A Calhoun (1999)
  87. Kobosev N, Monblanova W (1934) Acta Physicochim URSS 1:611 / Acta Physicochim URSS by N Kobosev (1934)
  88. Kobosev N, Monblanova W (1936) Acta Physicochim URSS 4:395 / Acta Physicochim URSS by N Kobosev (1936)
  89. Horiuti J, Polanyi M (1935) Acta Physochim URSS 2:50
  90. Trasatti S (1972) J Electroanal Chem 39:163 (10.1016/S0022-0728(72)80485-6) / J Electroanal Chem by S Trasatti (1972)
  91. Trasatti S (1994) Electrochim Acta 39:1803 (10.1016/0013-4686(94)85168-9) / Electrochim Acta by S Trasatti (1994)
  92. Gerischer H (1958) Bull Soc Chim Belg 67:506 (10.1002/bscb.19580670714) / Bull Soc Chim Belg by H Gerischer (1958)
  93. Parsons R (1958) Trans Faraday Soc 54:1053 (10.1039/tf9585401053) / Trans Faraday Soc by R Parsons (1958)
  94. Nørskov JK, Bligaard T, Logadottir A, Kitchin JR, Chen JG, Pandelov S, Stimming U (2005) J Electrochem Soc 152:J23 (10.1149/1.1856988) / J Electrochem Soc by JK Nørskov (2005)
  95. Jaramillo TF, Jørgensen KP, Bonde J, Nielsen JH, Horch S, Chorkendorff I (2007) Science 317:100 (10.1126/science.1141483) / Science by TF Jaramillo (2007)
  96. Meier J, Schløtz J, Liu P, Nørskov JK, Stimming U (2004) Chem Phys Lett 390:440 (10.1016/j.cplett.2004.03.149) / Chem Phys Lett by J Meier (2004)
  97. Schmickler W, Trasatti S (2006) J Electrochem Soc 153:L31 (10.1149/1.2358294) / J Electrochem Soc by W Schmickler (2006)
  98. Conway BE, Tilak BV (2002) Electrochim Acta 47:3371 (10.1016/S0013-4686(02)00329-8) / Electrochim Acta by BE Conway (2002)
  99. Kunimatsu K, Uchida H, Osawa M, Watanabe M (2006) J Electroanal Chem 587:209 (10.1016/j.jelechem.2005.11.026) / J Electroanal Chem by K Kunimatsu (2006)
  100. Tadjeddine A, Peremans A (1996) J Electroanal Chem 409:115 (10.1016/0022-0728(96)04508-1) / J Electroanal Chem by A Tadjeddine (1996)
  101. Appleby AJ (1993) J Electroanal Chem 357:117 (10.1016/0022-0728(93)80378-U) / J Electroanal Chem by AJ Appleby (1993)
  102. Santos E, Schmickler W (eds) (2011) Catalysis in electrochemistry: from fundamental aspects to strategies for fuel cell development. Wiley, New York / Catalysis in electrochemistry: from fundamental aspects to strategies for fuel cell development (2011)
  103. Koper M (ed) (2009) Fuel cell catalysis: a surface science approach. Wiley, New York / Fuel cell catalysis: a surface science approach (2009)
  104. Nørskov JK, Rossmeisl J, Logadottir A, Lundquist L, JKitchim JR, Bligaard T, Jónsson H (2004) J Phys Chem B 108:17886 (10.1021/jp047349j) / J Phys Chem B by JK Nørskov (2004)
  105. Bligaard T, Nørskov JK, Dahl S, Matthiesen J, Christensen CH, Sebested J (2004) J Catal 224:206 (10.1016/j.jcat.2004.02.034) / J Catal by T Bligaard (2004)
  106. Will F (1975) The role of oxides in the electroreduction of oxygen. In: Conference proceedings, Fuel Cell Catalysis Workshop, special report, EPRI SR-13. Electric Power Research Institute, Palo Alto, CA, pp 71–76
  107. Bond GC (1962) Catalysis by metals. Academic, New York / Catalysis by metals by GC Bond (1962)
  108. Lima FHB, Zhang J, Shao MH, Sasaki K, Vukmirovic MB, Ticianelly EA, Adzic RR (2007) J Phys Chem C 111:404 (10.1021/jp065181r) / J Phys Chem C by FHB Lima (2007)
  109. Grove WR (1839) Phil Mag 14:127 / Phil Mag by WR Grove (1839)
  110. Jasinski R (1964) Nature 201:1212 (10.1038/2011212a0) / Nature by R Jasinski (1964)
  111. van den Brink F, Barendrecht E, Visscher W (1980) Rec J R Neth Chem Soc 99:253 / Rec J R Neth Chem Soc by F Brink van den (1980)
  112. Tarasevich MR, Radiushkina KA (1980) Russ Chem Ver 49:718 (10.1070/RC1980v049n08ABEH002499) / Russ Chem Ver by MR Tarasevich (1980)
  113. Zagal JH (1992) Coord Chem Rev 119:89 (10.1016/0010-8545(92)80031-L) / Coord Chem Rev by JH Zagal (1992)
  114. Adzic RR (1998) Recent advances in oxygen reduction. In: Lipkowski J, Ross PN (eds) Electrocatalysis. Wiley, New York, pp 291–242 / Electrocatalysis by RR Adzic (1998)
  115. Zagal JH (2003) Macrocycles. In: Vielstich W, Lamm A, Gasteiger H (eds) Handbook of fuel-cell. Fundamentals, technology and applications, vol 2, part 5. Wiley, Chichester, pp 544–554 / Handbook of fuel-cell. Fundamentals, technology and applications, vol 2, part 5 by JH Zagal (2003)
  116. Dodelet JP (2006) Oxygen-reduction in PEM fuel-cell conditions: heat-treated non-precious metal-N4 macrocycles and beyond. In: Zagal JH, Bedioui F, Dodelet JP (eds) N4 macrocyclic metal complexes. Springer, New York, pp 83–147 (10.1007/978-0-387-28430-9_3) / N4 macrocyclic metal complexes by JP Dodelet (2006)
  117. Zagal JH, Paez MA, Silva JF (2006) Fundamental aspects of the catalytic activity of metallomacrocyclics for the reduction of O2. In: Zagal JH, Bedioui F, Dodelet JP (eds) N4 macrocyclic metal complexes. Springer, New York, pp 41–75 (10.1007/978-0-387-28430-9_2) / N4 macrocyclic metal complexes by JH Zagal (2006)
  118. Bezerra CWB, Zhang L, Liu H, Lee K, Marques ALB, Marques EP, Wang H, Zhang J (2007) J Power Sources 173:891 (10.1016/j.jpowsour.2007.08.028) / J Power Sources by CWB Bezerra (2007)
  119. Zhang L, Zhang J, Wilkinson DP, Wang H (2006) J Power Sources 156:171 (10.1016/j.jpowsour.2005.05.069) / J Power Sources by L Zhang (2006)
  120. Song C, Zhang J (2008) PEM fuel cell electrocatalysts and catalyst layers. In: Zhang J (ed) Fundamentals and applications. Springer, New York, p 89 / Fundamentals and applications by C Song (2008)
  121. Zagal JH, Griveau S, Silva JF, Nyokong T, Bedioui F (2011) Coord Chem Rev 254:2755 (10.1016/j.ccr.2010.05.001) / Coord Chem Rev by JH Zagal (2011)
  122. Collman JP, Denisevich P, Konai Y, Marrocco M, Koval C, Anson FC (1980) J Am Chem Soc 102:607 / J Am Chem Soc by JP Collman (1980)
  123. Steiger B, Shi C, Anson FA (1993) Inorg Chem 32:2107 (10.1021/ic00062a038) / Inorg Chem by B Steiger (1993)
  124. Randin JP (1974) Electrochim Acta 19:83 (10.1016/0013-4686(74)85060-7) / Electrochim Acta by JP Randin (1974)
  125. Beck F (1977) J Appl Electrochem 7:191 (10.1007/BF00618991) / J Appl Electrochem by F Beck (1977)
  126. Ulstrup (1977) J Electroanal Chem 79:191 (10.1016/0368-1874(77)80213-X)
  127. Shigehara K, Anson F (1982) J Phys Chem 86:2776 (10.1021/j100211a043) / J Phys Chem by K Shigehara (1982)
  128. Zhu H, Tolmachev YV, Scherson DA (2010) J Phys Chem C 114:13650 (10.1021/jp102011t) / J Phys Chem C by H Zhu (2010)
  129. Shi Z, Zhang J (2007) J Phys Chem C 111:7084 (10.1021/jp0671749) / J Phys Chem C by Z Shi (2007)
  130. Van Veen JAR, Visser C (1979) Electrochim Acta 24:921 (10.1016/0013-4686(79)87088-7) / Electrochim Acta by JAR Veen Van (1979)
  131. Van Veen JAR, Van Baar JF, Kroese CJ, Coolegem JGF, De Wit N, Colljn HA (1981) Ber Bunsenges Phys Chem 85:693 (10.1002/bbpc.19810850917)
  132. Zagal JH, Gulppi M, Isaacs M, Cárdenas-Jirón G, Aguirre MJ (1998) Electrochim Acta 44:1349 (10.1016/S0013-4686(98)00257-6) / Electrochim Acta by JH Zagal (1998)
  133. Bouwkamp-Wijnoltz AL, Visscher W, Van Veen JAR, Boellard E, Van der Kraan AM, Tang SC (2002) J Phys Chem B 106:12993 (10.1021/jp0266087) / J Phys Chem B by AL Bouwkamp-Wijnoltz (2002)
  134. Zagal JH, Gulppi MA, Caro CA, Cárdenas-Jirón GI (1999) Electrochem Comm 1:389–393 (10.1016/S1388-2481(99)00076-4) / Electrochem Comm by JH Zagal (1999)
  135. Cárdenas-Jirón GI, Gulppi MA, Caro CA, Del Río R, Páez M, Zagal JH (2001) Electrochim Acta 46:3227 (10.1016/S0013-4686(01)00614-4) / Electrochim Acta by GI Cárdenas-Jirón (2001)
  136. Bedioui F, Griveau S, Nyokong T, Appleby AJ, Caro CA, Gulppi M, Ochoa G, Zagal JH (2007) Phys Chem Chem Phys 9:3383 (10.1039/b618767f) / Phys Chem Chem Phys by F Bedioui (2007)
  137. Sancy M, Pavez J, Gulppi MA, Mattos IL, Arratia-Perez R, Linares-Flores C, Páez M, Nyokong T, Zagal JH (2011) Electroanalysis 23:711 (10.1002/elan.201000599) / Electroanalysis by M Sancy (2011)
  138. Inzelt G (2011) J Solid State Electrochem (in press)
Dates
Type When
Created 14 years, 3 months ago (May 30, 2011, 6:32 a.m.)
Deposited 1 year, 4 months ago (April 7, 2024, 2:47 a.m.)
Indexed 1 week, 4 days ago (Aug. 21, 2025, 12:26 p.m.)
Issued 14 years, 3 months ago (May 31, 2011)
Published 14 years, 3 months ago (May 31, 2011)
Published Online 14 years, 3 months ago (May 31, 2011)
Published Print 14 years, 2 months ago (July 1, 2011)
Funders 0

None

@article{Appleby_2011, title={Free energy relationships in electrochemistry: a history that started in 1935}, volume={15}, ISSN={1433-0768}, url={http://dx.doi.org/10.1007/s10008-011-1394-8}, DOI={10.1007/s10008-011-1394-8}, number={7–8}, journal={Journal of Solid State Electrochemistry}, publisher={Springer Science and Business Media LLC}, author={Appleby, Anthony John and Zagal, José Heráclito}, year={2011}, month=may, pages={1811–1832} }