Download PDF
Ackermann, L. : 2022 Science of Synthesis, 2021/5: Electrochemistry in Organic Synthesis DOI: 10.1055/sos-SD-236-00331
Electrochemistry in Organic Synthesis

15 Paired Electrolysis

More Information

Book

Editor: Ackermann, L.

Authors: Ackermann, L. ; Brown, R. C. D. ; Enders, P.; Fang, P.; Folgueiras-Amador, A. A. ; Francke, R. ; Galczynski, J.; Gosmini, C. ; Hodgson, J. W.; Hou, Z.-W.; Huang, H.; Huang, Z.; Inagi, S. ; Kuciński, K. ; Kuriyama, M. ; Lam, K. ; Lambert, T. H.; Leech, M. C. ; Lennox, A. J. J. ; Lin, Z.; Little, R. D.; Massignan, L.; Mei, T.-S.; Meyer, T. H.; Moeller, K. D. ; Onomura, O. ; Prudlik, A.; Ruan, Z. ; Scheremetjew, A. ; Schiltz, P.; Selt, M.; Villani, E. ; Waldvogel, S. R. ; Wang, Z.-H.; Wu, T.; Xing, Y.-K.; Xu, H.-C. ; Yamamoto, K.

Title: Electrochemistry in Organic Synthesis

Print ISBN: 9783132442122; Online ISBN: 9783132442146; Book DOI: 10.1055/b000000126

1st edition © 2022. Thieme. All rights reserved.
Georg Thieme Verlag KG, Stuttgart

Subjects: Organic Chemistry;Chemical Reactions, Catalysis;Organometallic Chemistry;Laboratory Techniques, Stoichiometry

Science of Synthesis Reference Libraries



Parent publication

Title: Science of Synthesis

DOI: 10.1055/b-00000101

Series Editors: Fürstner, A. (Editor-in-Chief); Carreira, E. M.; Faul, M.; Kobayashi, S.; Koch, G.; Molander, G. A.; Nevado, C.; Trost, B. M.; You, S.-L.

Type: Multivolume Edition

Also available at
 


Abstract

While paired electrochemical reactions have a history that can be traced back to the 19th century and have been very effectively used for the production of commercial products, the larger synthetic community has only recently started to embrace the opportunities this approach offers to maximize the overall energy and atom efficiency of electrochemical processes. In this review, a summary of these efforts is presented in the context of four classes of paired electrochemical reactions. These classes of reaction involve parallel processing of products at the anode and cathode, divergent reactions that use a single starting material in different ways, convergent reactions that combine products made at the anode and cathode, and sequential reactions that pass a substrate between the electrodes.

Key words

electroorganic chemistry - paired electrochemistry - anodic oxidation - cathodic reduction
 
  • 1 Yan M, Kawamata Y, Baran PS. Chem. Rev. 2017; 117: 13230
  • 2 Moeller KD. Tetrahedron 2000; 56: 9527
  • 3 Sandford C, Edwards MA, Klunder KJ, Hickey DP, Li M, Barman K, Sigman MS, White HS, Minteer SD. Chem. Sci. 2019; 10: 6404
  • 4 Minteer SD, Baran PS. Acc. Chem. Res. 2020; 53: 545
  • 5 Frontana-Uribe BA, Little RD, Ibanez JG, Palma A, Vasquez-Medrano R. Green Chem. 2010; 12: 2099
  • 6 Francke R, Little RD. Chem. Soc. Rev. 2014; 43: 2492
  • 7 Nutting JE, Rafiee M, Stahl SS. Chem. Rev. 2018; 118: 4834
  • 8 Mitsudo K, Kurimoto Y, Yoshioka K, Suga S. Chem. Rev. 2018; 118: 5985
  • 9 Sauermann N, Meyer TH, Qiu Y, Ackermann L. ACS Catal. 2018; 8: 7086
  • 10 Sauer GS, Lin S. ACS Catal. 2018; 8: 5175
  • 11 Möhle S, Zirbes M, Rodrigo E, Gieshoff T, Wiebe A, Waldvogel SR. Angew. Chem. Int. Ed. 2018; 57: 6018
  • 12 Okada Y, Chiba K. Chem. Rev. 2018; 118: 4592
  • 13 Elsherbini M, Wirth T. Acc. Chem. Res. 2019; 52: 3287
  • 14 Xiong P, Xu H.-C. Acc. Chem. Res. 2019; 52: 3339
  • 15 Hilt G. ChemElectroChem 2020; 7: 395
  • 16 Moeller KD. Chem. Rev. 2018; 118: 4817
  • 17 Jing Q, Moeller KD. Acc. Chem. Res. 2020; 53: 135
  • 18 Organic Electrochemistry: Revised and Expanded. Hammerich O, Speiser B. CRC Press; Boca Raton, FL 2016
    Google Scholar
  • 19 Llorente MJ, Nguyen BH, Kubiak CP, Moeller KD. J. Am. Chem. Soc. 2016; 138: 15110
  • 20 Ibanez JG, Frontana-Uribe BA, Vasquez-Medrano R. J. Mex. Chem. Soc. 2016; 60: 247
  • 21 Paddon CA, Atobe M, Fuchigami T, He P, Watts P, Haswell SJ, Pritchard GJ, Bull SD, Marken F. J. Appl Electrochem. 2006; 36: 617
  • 22 Aust N, Kirste A, In: Encyclopedia of Applied Electrochemistry Kreysa G, Ota K.-i, Savinell RF. Springer New York 2014; 1505-1510 (accessed February, 2021) 10.1007/978-1-4419-6996-5_370
  • 23 Baizer MM, Hallcher RC. J. Electrochem. Soc. 1976; 123: 809
  • 24 Sánchez-Sánchez CM, Expósito E, Frías-Ferrer A, González-García J, Montiel V, Aldaz A. J. Chem. Educ. 2004; 81: 698
  • 25 Steckhan E, Arns T, Heineman WR, Hilt G, Hoormann D, Jörissen J, Kröner L, Lewall B, Pütter H. Chemosphere 2001; 43: 63
  • 26 Pütter H, Hannebaum H. US 6 063 256, 2000
  • 27 Pérez-Gallent E, Turk S, Latsuzbaia R, Bhardwaj R, Anastasopol A, Satre-Calabuig F, Garcia AC, Giling E, Goetheer E. Ind. Eng. Chem. Res. 2019; 58: 6195
  • 28 Nguyen BH, Perkins RJ, Smith JA, Moeller KD. J. Org. Chem. 2015; 80: 11953
  • 29 Wang X, Zhao J. Chem. Lett. 2004; 33: 332
  • 30 Park K, Pintauro PN, Baizer MM, Nobe K. J. Electrochem. Soc. 1985; 132: 1850
  • 31 Chadderdon XH, Chadderdon DJ, Pfennig T, Shanks BH, Li W. Green Chem. 2019; 21: 6210
  • 32 Shen Y, Atobe M, Li W, Nonaka T. Electrochim. Acta 2003; 48: 1041
  • 33 Belmont C, Girault HH. Electrochim. Acta 1995; 40: 2505
  • 34 Ishifune M, Yamashita H, Matsuda M, Ishida H, Yamashita N, Kera Y, Kashimura S, Masuda H, Murase H. Electrochim. Acta 2001; 46: 3259
  • 35 Jud W, Kappe CO, Cantillo D. Chem.–Eur. J. 2018; 24: 17234
  • 36 Momeni S, Nematollahi D. J. Electroanal. Chem. 2020; 857: 113746
  • 37 Tian S, Jia X, Wang L, Li B, Liu S, Ma L, Gao W, Wei Y, Chen J. Chem. Commun. (Cambridge) 2019; 55: 12104
  • 38 Ma Y, Yao X, Zhang L, Ni P, Cheng R, Ye J. Angew. Chem. Int. Ed. 2019; 58: 16548
  • 39 Sharaft-Kolkeshvandi M, Nematollahi D, Nikpour F. Synthesis 2017; 49: 1555
  • 40 Jamshidi M, Nematollahi D, Taheri F, Alizadeh H. ACS Sustainable Chem. Eng. 2019; 7: 1956
  • 41 Salehzadeh H, Mashhadizadeh M. J. Org. Chem. 2019; 84: 9307
  • 42 Zhang L, Hu X. Chem. Sci. 2020; 11: 10786
  • 43 Manabe S, Wong C.-M, Sevov CS. J. Am. Chem. Soc. 2020; 142: 3024
  • 44 Hartmer MF, Waldvogel SR. Chem. Commun. (Cambridge) 2015; 51: 16346
  • 45 Ansari A, Nematollahi D. Appl. Catal., B 2020; 261: 118226
  • 46 Mokhtari B, Nematollahi D, Salehzadeh H. Sci. Rep. 2019; 9: 4537
  • 47 Mokhtari B, Nematollahi D, Salehzadeh H. Green Chem. 2018; 20: 1499
  • 48 Varmaghani F, Hassan M, Nematollahi D, Mallakpour S. New J. Chem. 2017; 41: 8279
  • 49 Jiang Y.-y, Dou G.-y, Zhang L.-s, Xu K, Little RD, Zeng C.-c. Adv. Synth. Catal. 2019; 361: 5170
  • 50 Dong X, Roeckl JL, Waldvogel SR, Morandi B. Science (Washington, D. C.) 2021; 371: 507
  • 51 Wu T, Nguyen BH, Daugherty MC, Moeller KD. Angew. Chem. Int. Ed. 2019; 58: 3562