Publications

  1. AA Samu, I. Szenti, Á. Kukovecz, B. Endrődi, C. Janáky: Systematic screening of gas diffusion layers for high performance CO2 electrolysis, Communications Chemistry (2023) 6:41
  2. Ifan E L Stephens et al., including B. Endrődi: 2022 roadmap on low temperature electrochemical CO2 reduction, JPhys Energy (2022) 4, 042003
  3. AA Samu, A. Kormányos, E. Kecsenovity, N. Szilágyi, B. Endrődi, C. Janáky: Intermittent Operation of CO2 Electrolyzers at Industrially Relevant Current Densities, ACS Energy Letters (2022) 7, 5, 1859-1861
  4. Á. Vass, A. Kormányos, Zs. Kószó, B. Endrődi, C. Janáky: Anode Catalysts in CO2 Electrolysis: Challenges and Untapped Opportunities, ACS Catalysis (2022) 12, 2, 1037-1051
  5. Á. Vass, B. Endrődi, G. F. Samu, Á. Balog, A. Kormányos, S. Cherevko, C. Janáky: Local Chemical Environment Governs Anode Processes in CO2 Electrolyzers, ACS Energy Letters (2021) 6, 11, 3801–3808
  6. B. Endrődi, A. Samu, E. Kecsenovity, T. Halmágyi, D. Sebők and C. Janáky: Operando cathode activation with alkali metal cations for high current density operation of water-fed zero-gap carbon dioxide electrolysers, Nature Energy (2021) 6, 439–448
  7. Á. Vass, B. Endrődi, C. Janáky: Coupling electrochemical carbon dioxide conversion with value-added anode processes: an emerging paradigm, Current Opinion in Electrochemistry (2020) 25:100621
  8. B. Endrődi, O. Diaz-Morales, U. Mattinen, M. Cuartero, A. K. Padinjarethil, N. Simic, M. Wildlock, GA. Crespo, A. Cornell: Selective electrochemical hydrogen evolution on cerium oxide protected catalyst surfaces, Electrochimica Acta (2020) 341, 136022
  9. B. Endrődi, E. Kecsenovity, A. Samu, T. Halmágyi, S. Rojas-Carbonell, L. Wang, Y. Yan, C. Janáky: High carbonate ion conductance of a robust PiperION membrane allows industrial current density and conversion in a zero-gap carbon dioxide electrolyzer cell, Energy Environ. Sci. (2020) 13, 4098-4105
  10. H. Kim, B. Endrődi, G. Salazar-Alvarez, A. Cornell: One-step electro-precipitation of nanocellulose hydrogels on conducting substrates and its possible applications: coatings, composites, and energy devices, ACS Sustainable Chemistry & Engineering (2019) 7 (24), 19415-19425
  11. B. Endrődi, E. Kecsenovity, A. Samu, F. Darvas, R. V. Jones, V. Török, A. Danyi, and C. Janáky: Multilayer Electrolyzer Stack Converts Carbon Dioxide to Gas Products at High Pressure with High Efficiency, ACS Energy Lett. (2019) 4, 7, 1770–1777
  12. B. Endrődi, A. Stojanovic, M. Cuartero, N. Simic, M. Wildlock, R. De Marco, GA. Crespo, A. Cornell: Selective hydrogen evolution on manganese oxide coated electrodes: new cathodes for sodium chlorate production , ACS Sustainable Chemistry & Engineering (2019) 7 (14), 12170-12178
  13. B. Endrődi, V. Smulders, N. Simic, M. Wildlock, G. Mul, B. Mei, A. Cornell: In situ formed vanadium-oxide cathode coatings for selective hydrogen production, Applied catalysis B: environmental (2019) 244, 233-239
  14. B. Endrődi, S. Sandin, M. Wildlock, N. Simic, A. Cornell: Suppressed oxygen evolution during chlorate formation from hypochlorite in the presence of chromium (VI), Journal of Chemical Technology & Biotechnology (2019) 94 (5), 1520-1527
  15. B. Endrődi, S Sandin, V Smulders, N Simic, M Wildlock, G Mul, BT Mei, A Cornell, Journal of cleaner production (2018) 182, 529-537
  16. B. Endrődi, E. Kecsenovity, K. Rajeshwar, C. Janáky: One-Step Electrodeposition of Nanocrystalline TiO2 Films with Enhanced Photoelectrochemical Performance and Charge Storage, ACS Appl. Energy Mater. (2018) 1, 2, 851–858
  17. J. Lindberg, B. Endrődi, G. Avall, P. Johansson, A. Cornell, G. Lindbergh: Li Salt Anion Effect on O2 Solubility in an Li–O2 Battery, The Journal of Physical Chemistry C (2018) 122 (4), 1913-1920
  18. B. Endrődi, G. Bencsik, F. Darvas, R. Jones, K. Rajeshwar, C. Janáky: Continuous-flow electroreduction of carbon dioxide, Progress in Energy and Combustion Science 62 (2017) 133-154
  19. GF. Samu, A. Veres, B. Endrődi, E. Varga, K. Rajeshwar, C. Janaky: Bandgap-engineered quaternary MxBi2-xTi2O7 (M: Fe, Mn) semiconductor nanoparticles: Solution combustion synthesis, characterization, and photocatalysis, Applied Catalysis B: Environmental (2017) 208, 148-160
  20. E. Kecsenovity, B. Endrődi, PS. Tóth, Y. Zou, RAW. Dryfe, K. Rajeshwar, C. Janáky: Enhanced photoelectrochemical performance of cuprous oxide/graphene nanohybrids, Journal of the American Chemical Society (2017) 139 (19), 6682-6692
  21. B. Endrődi, N. Simic, M. Wildlock, A. Cornell: A review of chromium (VI) use in chlorate electrolysis: Functions, challenges and suggested alternatives, Electrochimica Acta (2017) 234, 108-122
  22. B. Endrődi, GF. Samu, MA. Azam, C. Janáky, C. Visy: Electrochemical synthesis and characterization of poly (3-hexylthiophene)/single-walled carbon nanotube array hybrid materials, Journal of Solid State Electrochemistry (2016) 20 (11), 3179-3187
  23. C. Visy, B. Endrődi: In situ techniques used in hyphenated mode for studying the properties of electroactive materials, Electrochimica Acta (2016) 215, 187-191
  24. C. Janáky, D. Hursán, B. Endrődi, W. Chanmanee, D. Roy, D. Liu, NR. De Tacconi, BH. Dennis, K. Rajeshwar: Electro-and photoreduction of carbon dioxide: The twain shall meet at copper oxide/copper interfaces, ACS Energy Letters (2016) 1 (2), 332-338
  25. B. Bohner, B. Endrődi, D. Horváth, Á. Tóth: Flow-driven pattern formation in the calcium-oxalate system, The Journal of chemical physics (2016) 144 (16), 164504
  26. A. Kormányos, B. Endrődi, R. Ondok, A. Sápi, C. Janáky: Controlled photocatalytic synthesis of core–shell SiC/Polyaniline hybrid nanostructures, Materials (2016) 9 (3), 201
  27. E. Kecsenovity, B. Endrődi, Z. Pápa, K. Hernádi, K. Rajeshwar, C. Janáky: Decoration of ultra-long carbon nanotubes with Cu2O nanocrystals: a hybrid platform for enhanced photoelectrochemical CO2 reduction, Journal of Materials Chemistry A (2016) 4 (8), 3139-3147
  28. A. Varga, B. Endrődi, V. Hornok, C. Visy, C. Janáky: Controlled photocatalytic deposition of CdS nanoparticles on poly (3-hexylthiophene) nanofibers: A versatile approach to obtain organic/inorganic hybrid semiconductor assemblies, The Journal of Physical Chemistry C (2015) 119 (50), 28020-28027
  29. T. Szabó, E. Nyerki, T. Tóth, R. Csekő, M. Magyar, E. Horváth, K. Hernádi, B. Endrődi, C. Visy, L. Forró, L. Nagy: Generating photocurrent by nanocomposites based on photosynthetic reaction centre protein, physica status solidi (b) (2015) 252 (11), 2614-2619
  30. PS. Tóth, B. Endrődi, C. Janáky, C. Visy: Development of polymer–dopant interactions during electropolymerization, a key factor in determining the redox behaviour of conducting polymers, Journal of Solid State Electrochemistry (2015) 19 (9), 2891-2896
  31. B. Endrődi, GF. Samu, D. Fejes, Z. Németh, E. Horváth, A. Pisoni, PK Matus, K. Hernádi, C. Visy, L. Forró, C. Janáky: Challenges and rewards of the electrosynthesis of macroscopic aligned carbon nanotube array/conducting polymer hybrid assemblies, Journal of Polymer Science Part B: Polymer Physics (2015) 53, 1507–1518
  32. B. Endrődi, J. Mellár, Z. Gingl, C. Visy, C. Janáky: Molecular and supramolecular parameters dictating the thermoelectric performance of conducting polymers: a case study using poly(3-alkylthiophene)s, The Journal of Physical Chemistry C (2015) 119 (16), 8472-8479
  33. B. Endrődi, A. Kormányos, C. Janáky, O. Berkesi, C. Visy: Fixation of laccase enzyme into polypyrrole, assisted by chemical interaction with modified magnetite nanoparticles: A facile route to synthesize stable electroactive bionanocomposite catalysts, Electrochimica Acta (2014) 122, 282-288
  34. B. Endrődi, J. Mellár, Z. Gingl, C. Visy, C. Janáky: Reasons behind the improved thermoelectric properties of poly (3-hexylthiophene) nanofiber networks, RSC Advances (2014) 4 (98), 55328-55333
  35. B. Endrődi, D. Hursán, L. Petrilla, G. Bencsik, C. Visy: Incorporation of cobalt-ferrite nanoparticles into a conducting polymer in aqueous micellar medium: strategy to get photocatalytic composites, Acta Chimica Slovenica (2014) 61 (2), 376-381
  36. M. Magyar, K. Hajdu, T. Szabó, B. Endrődi, K. Hernádi, E. Horváth, A. Magrez, L. Forró, C. Visy, L. Nagy: Sensing hydrogen peroxide by carbon nanotube/horseradish peroxidase bio-nanocomposite, physica status solidi (b) (2013) 250 (12), 2559-2563
  37. PS. Tóth, GF. Samu, B. Endrődi, C. Visy: Hyphenated in situ conductance and spectroelectrochemical studies of polyaniline films in strongly acidic solutions, Electrochimica Acta (2013) 110, 446-451
  38. B. Endrődi, A. Bíró, C. Janáky, IY. Tóth, C. Visy: Layer by layer growth of electroactive conducting polymer/magnetite hybrid assemblies, Synthetic metals (2013) 171, 62-68
  39. T. Szabó, M. Magyar, Z. Németh, K. Hernádi, B. Endrődi, G. Bencsik, C. Visy, E. Horváth, A. Magrez, L. Forró, L. Nagy: Charge stabilization by reaction center protein immobilized to carbon nanotubes functionalized by amine groups and poly (3-thiophene acetic acid) conducting polymer, physica status solidi (b) (2012) 249 (12), 2386-2389
  40. G. Bencsik, C. Janáky, B. Endrődi, C. Visy: Electrocatalytic properties of the polypyrrole/magnetite hybrid modified electrode towards the reduction of hydrogen peroxide in the presence of dissolved oxygen, Electrochimica Acta (2012) 73, 53-58
  41. C. Janáky, B. Endrődi, O. Berkesi, C. Visy: Visible-light-enhanced electrocatalytic activity of a polypyrrole/magnetite hybrid electrode toward the reduction of dissolved dioxygen, The Journal of Physical Chemistry C (2010) 114 (45), 19338-19344
  42. C. Janaky, B. Endrődi, A. Hajdu, C. Visy: Synthesis and characterization of polypyrrole–magnetite–vitamin B12 hybrid composite electrodes, Journal of Solid State Electrochemistry (2010) 14 (2), 339
  43. C. Janáky, B. Endrődi, K. Kovács, M. Timko, A. Sápi, C. Visy: Chemical synthesis of poly (3-thiophene-acetic-acid)/magnetite nanocomposites with tunable magnetic behaviour, Synthetic metals (2010) 160 (1-2), 65-71
  44. G. Bencsik, C. Janáky, E. Kriván, Z. Lukács, B. Endrődi, C. Visy: Conducting polymer based multifunctional composite electrodes, Reaction Kinetics and Catalysis Letters (2009) 96 (2), 421-428