Development of a reactor with carbon catalysts for modular-scale, low-cost electrochemical generation of H2O2

Reaction Chemistry and Engineering

Volumn 2, Issue 2, 2017, Pages 239-245

  Chen, Zhihua ^a,b   Chen, Shucheng ^a,b   Siahrostami, Samira ^a   Chakthranont, Pongkarn ^a   Hahn, Christopher ^a,b   Nordlund, Dennis ^c   Dimosthenis, Sokaras ^c   Nørskov, Jens K ^a,b   Bao, Zhenan ^a,b   Jaramillo, Thomas F ^a,b  

^a Stanford University   (United States)

^b SLAC NATIONAL ACCELERATOR LABORATORY   (United States)

^c SLAC NATIONAL ACCELERATOR LABORATORY   (United States)

Author keywords

[No Author keywords available]

Indexed keywords

CARBON; CATALYSTS; DEVELOPING COUNTRIES; RENEWABLE ENERGY RESOURCES;

ALKALINE CONDITIONS; ELECTROCHEMICAL GENERATION; ELECTROCHEMICAL REACTOR; FARADAIC EFFICIENCIES; FUNDAMENTAL STUDIES; RENEWABLE ENERGY SOURCE; ROTATING RING-DISK ELECTRODE; WATER PURIFICATION;

COSTS;

EID: 85040033368     PISSN: None     EISSN: 20589883     Source Type: Journal    
DOI: 10.1039/c6re00195e     Document Type: Article

References (25)

1. UN Global issue report, http://www.un.org/en/globalissues/water/index.shtml
2. I. Sires E. Brillas Remediation of water pollution caused by pharmaceutical residues based on electrochemical separation and degradation technologies: A review Environ. Int. 2012 40 212 229
3. Drinking Water Treatability Database, https://iaspub.epa.gov/tdb/pages/treatment/treatmentOverview.do?treatmentProcessId=-1118142891
4. Drinking Water Contaminants-Standards and Regulations, https://www.epa.gov/dwstandardsregulations
5. W. A. Brungs Effects of Residual Chlorine on Aquatic Life J.-Water Pollut. Control Fed. 1973 45 10 2180 2193
6. J. M. Campos-Martin G. Blanco-Brieva J. L. G. Fierro Hydrogen peroxide synthesis: An outlook beyond the anthraquinone process Angew. Chem., Int. Ed. 2006 45 42 6962 6984
7. C. A. Martinez-Huitle S. Ferro Electrochemical oxidation of organic pollutants for the wastewater treatment: direct and indirect processes Chem. Soc. Rev. 2006 35 12 1324 1340
8. A. Alvarez-Gallegos D. Pletcher The removal of low level organics via hydrogen peroxide formed in a reticulated vitreous carbon cathode cell, Part 1, The electrosynthesis of hydrogen peroxide in aqueous acidic solutions Electrochim. Acta 1998 44 5 853 861
9. T. Murayama I. Yamanaka Electrosynthesis of Neutral H2O2 Solution from O-2 and Water at a Mixed Carbon Cathode Using an Exposed Solid-Polymer-Electrolyte Electrolysis Cell J. Phys. Chem. C 2011 115 13 5792 5799
10. J. L. Qiao M. Saito K. Hayamizu T. Okada Degradation of perfluorinated ionomer membranes for PEM fuel cells during processing with H2O2 J. Electrochem. Soc. 2006 153 6 A967 A974
11. S. Siahrostami A. Verdaguer-Casadevall M. Karamad D. Deiana P. Malacrida B. Wickman M. Escudero-Escribano E. A. Paoli R. Frydendal T. W. Hansen I. Chorkendorff I. E. L. Stephens J. Rossmeisl Enabling direct H2O2 production through rational electrocatalyst design (vol 12, pg 1137-1143, 2013) Nat. Mater. 2014 13 1 97 97
12. J. S. Jirkovsky I. Panas E. Ahlberg M. Halasa S. Romani D. J. Schiffrin Single Atom Hot-Spots at Au-Pd Nanoalloys for Electrocatalytic H2O2 Production J. Am. Chem. Soc. 2011 133 48 19432 19441
13. Y. M. Liu X. Quan X. F. Fan H. Wang S. Chen High-Yield Electrosynthesis of Hydrogen Peroxide from Oxygen Reduction by Hierarchically Porous Carbon Angew. Chem., Int. Ed. 2015 54 23 6837 6841
14. J. Park Y. Nabae T. Hayakawa M. A. Kakimoto Highly Selective Two-Electron Oxygen Reduction Catalyzed by Mesoporous Nitrogen-Doped Carbon ACS Catal. 2014 4 10 3749 3754
15. Y. H. Lee F. Li K. H. Chang C. C. Hu T. Ohsaka Novel synthesis of N-doped porous carbons from collagen for electrocatalytic production of H2O2 Appl. Catal., B 2012 126 208 214
16. T. P. Fellinger F. Hasche P. Strasser M. Antonietti Mesoporous Nitrogen-Doped Carbon for the Electrocatalytic Synthesis of Hydrogen Peroxide J. Am. Chem. Soc. 2012 134 9 4072 4075
17. S. Jun S. H. Joo R. Ryoo M. Kruk M. Jaroniec Z. Liu T. Ohsuna O. Terasaki Synthesis of new, nanoporous carbon with hexagonally ordered mesostructure J. Am. Chem. Soc. 2000 122 43 10712 10713
18. M. L. Gordon D. Tulumello G. Cooper A. P. Hitchcock P. Glatzel O. C. Mullins S. P. Cramer U. Bergmann Inner-shell excitation spectroscopy of fused-ring aromatic molecules by electron energy loss and X-ray Raman techniques J. Phys. Chem. A 2003 107 41 8512 8520
19. P. Brühwiler A. Maxwell C. Puglia A. Nilsson S. Andersson N. Mårtensson π∗ and σ∗ Excitons in C 1s Absorption of Graphite Phys. Rev. Lett. 1995 74 4 614
20. S. Maass F. Finsterwalder G. Frank R. Hartmann C. Merten Carbon support oxidation in PEM fuel cell cathodes J. Power Sources 2008 176 2 444 451
21. Z. W. Chen D. Higgins A. P. Yu L. Zhang J. J. Zhang A review on non-precious metal electrocatalysts for PEM fuel cells Energy Environ. Sci. 2011 4 9 3167 3192
22. J. J. Baschuk X. H. Li Modelling of polymer electrolyte membrane fuel cells with variable degrees of water flooding J. Power Sources 2000 86 1-2 181 196
23. J. W. F. To J. J. He J. G. Mei R. Haghpanah Z. Chen T. Kurosawa S. C. Chen W. G. Bae L. J. Pan J. B. H. Tok J. Wilcox Z. N. Bao Hierarchical N-Doped Carbon as CO2 Adsorbent with High CO2 Selectivity from Rationally Designed Polypyrrole Precursor J. Am. Chem. Soc. 2016 138 3 1001 1009
24. Technologies, U. Iodometric Titration, http://www.h2o2.com/technical-library/analytical-methods/default.aspx?pid=70&name=Iodometric-Titration
25. J. W. D. Ng M. Garcia-Melchor M. Bajdich P. Chakthranont C. Kirk A. Vojvodic T. F. Jaramillo Gold-supported cerium-doped NiOx catalysts for water oxidation Nat. Energy 2016 1 53