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  1. G. Yusibova, J.C. Douglin, I. Vetik, J. Pozdnjakova, K. Ping, J. Aruvali, A. Kikas, V. Kisand, M. Käärik, J. Leis, T. Kaljuvee, P. Paaver, S. Oras, Ł. Ciupiński, T. Plocinski, M. Konuhova, A.I. Popov, D.R. Dekel, V. Ivaništšev, N. Kongi, Pyrolytic Transformation of Zn-TAL Metal–Organic Framework into Hollow Zn–N–C Spheres for Improved Oxygen Reduction Reaction Catalysis. (2025) ACS Omega, 10, 15, 15280–15291. DOI: 10.1021/acsomega.4c11318
  2. V. Ivanistsev, R. Cepitis, J. Rossmeisl, N. Kongi, Twenty Years After: Scaling Relations in Oxygen Electrocatalysis and Beyond. (2024) ChemRxiv. DOI: 10.26434/chemrxiv-2024-csxt9-v2
  3. R. Cepitis, A. Kosimov, V. Ivaništšev, and N. Kongi, in Multi-functional Electrocatalysts. Fundamentals and Applications, ed. V. S. Saji and V. K. Pillai, Royal Society of Chemistry, 2024, vol. 46, ch. 13, pp. 357-374.
  4. Yusibova, G.; Ping, K.; Käärik, M.; Leis, J.; Aruväl, J.; Šmits, K.; Käämbre, T.; Kisand, V.;  Karpichev, Y.; Tammeveski, K.; Kongi, N. Optimizing post -treatment strategies for enhanced oxygen reduction/evolution activity in Co–N–C electrocatalyst. (2024) International Journal of Hydrogen Energy, 82 , 11 (2024) 398-406.
  5. Alam, M.; Ping, K.; Danilson, M.; Mikli, V.; Käärik, M.; Leis, J.; Aruväli, J.; Paiste, P.; Rähn, M.; Sammelselg, V.; Tammeveski, K.; Haller, S.; Kramm, U.I.; Starkov, P.; Kongi, N. Iron Triad-Based Bimetallic M-N-C Nanomaterials as Highly Active Bifunctional Oxygen Electrocatalysts. (2024) ACS Applied Energy Materials, 7 (9), 4076−4087. DOI: 10.1021/acsaem.4c00366
  6. Cepitis, R., Ivaništšev, V., Rossmeisl, J., Kongi, N. Bypassing the scaling relations in oxygen electrocatalysis with geometry-adaptive catalysts. (2024) Catalysis Science & Technology, 14, 2105 - 2113. DOI: 10.1039/D4CY00036F
  7. Ozkan, M., Shiner, A., Kongi, N., Hatton, T.A., Oldham, S., Sanders, E. Electrochemical direct air capture and direct ocean capture: The next frontier in carbon removal. (2024) Chem, 10, 3-6. DOI: 10.1016/j.chempr.2023.12.015
  8. Kosimov, A., Yusibova, G., Wojsiat, I.T., Aruväli, J., Käärik, M, Leis, J., Paaver, P., Vlassov, S., Kikas, A., Kisand, V., Piirsoo, H.-M., Kukli, K., Heinmaa, I., Kaljuvee, T., Kongi, N. Nadezda Kongi. Mechanosynthesis of bifunctional FeNi-NC oxygen electrocatalyst via a facile mixed-phase templating and preheating-pyrolysis. (2024) Journal of Materials Chemistry A, 12 (1) 335-342. DOI: 10.1039/D3TA04580C
  9. Assafrei, J.-M., Yusibova, G., Ping, K., Piirsoo, H.-M., Tamm, A., Käärik, M.,  Leis, J., Aruväli, J., Grozovski, V., Lust, E.,  Kongi, N. Maximizing the performance of aqueous zinc-air/iodide hybrid batteries through electrolyte composition optimization. (2023) Journal of Energy Storage, 74, 109528. DOI: 10.1016/j.est.2023.109528
  10. Ping, K., Bhadoria, R., Starkov, P., Kongi, N. M–N–C materials as heterogeneous catalysts for organic transformations. (2023) Coordination Chemistry Reviews, 497, 215412, DOI: 10.1016/j.ccr.2023.215412
  11. Kosimov, A., Alimbekova, A.,  Assafrei, J.-M., Yusibova, G.,  Aruväli, J.,  Käärik, M., Leis, J., Paiste, P., Ahmadi, M.,  Roohi, K., Taheri, P., Pinto, S.M., Cepitis, R., Baptista, A.J.,  Teppor, P., Lust, E., Kongi, N. Template-Assisted Mechanosynthesis Leading to Benchmark Energy Efficiency and Sustainability in the Production of Bifunctional Fe–N–C Electrocatalysts. (2023) ACS Sustainable Chemistry & Engineering, 11, 29, 10825–10834, DOI: 10.1021/acssuschemeng.3c02077
  12. Yusibova, G.; Assafrei, J.-M.; Ping, K.; Aruväli, J.; Paiste, P.; Käärik, M.; Leis, J.; Piirsoo, H.-M.; Tamm, A.; Kikas, A.; Kisand, V.; Starkov, P.; Kongi, N. Bimetallic Metal-Organic-Framework-Derived Porous Cobalt Manganese Oxide Bifunctional Oxygen Electrocatalyst. (2023) Journal of Electrocanalytical Chemistry, 117161. DOI: 10.1016/j.jelechem.2023.117161
  13. Cepitis, R.; Kongi, N.; Rossmeisl, J.; Ivanistsev, V. Surface curvature effect on Dual-Atom site oxygen electrocatalysis. (2023) ACS Energy Letters, 8, 1330-1335. DOI: 10.1021/acsenergylett.3c00068
  14. Ávila-Bolívar, B.; Cepitis, R.; Alam, M.; Assafrei, J.-M.; Ping, K.; Aruväli, J.; Kikas, A.; Kisand, V.; Vlassov, S.; Käärik, M.; Leis, J.; Ivaništštev, V.; Starkov, V.; Montiel, V.; Solla-Gullón, J.; Kongi. N. CO2 reduction to formate on an affordable bismuth metal-organic framework based catalyst. (2022) Journal of CO2 Utilization, 59, 101937. DOI: 10.1016/j.jcou.2022.101937
  15. Kosimov, A; Yusibova, G.; Aruväli, J.: Paiste, P.; Käärik, M.; Leis, J.; Kikas, A.; Kisand, V.; Šmits, K.; Kongi, N. Liquid-assisted grinding/compression: a facile mechanosynthetic route for the production of hig-performing Co–N–C electrocatalyst materials. (2022) Green Chemistry, 24, 305. DOI: 10.1039/D1GC03433B
  16. Cepitis, R.; Kongi, N.; Grozovski, V.; Ivaništšev, V.; Lust, E. Multifunctional Electrocatalysis on Single-site Metal Catalysts: A Computational Perspective. (2021) Catalysts, 11 (10), 1165. DOI: 10.3390/catal11101165
  17. Hussain, S.; Erikson, H.; Kongi, N.; Rähn, M.; Merisalu, M.; Tamm, A.; Sammelselg, V.; Alonso-Vante, N.; Tammeveski, K.; High oxygen reduction reaction activity and durability of Pt catalyst photo-deposited on SnO2-coated and uncoated multi-walled carbon nanotubes. (2021) Journal of Electroanalytical Chemistry, 896, 115147. DOI: 10.1016/j.jelechem.2021.115147
  18. Linge, J.M.; Kozhemyakin,D.; Erikson, H.; Vlassov, S.; Kongi, N.; Tammeveski, K. Silver Nanowire‐Based Catalysts for Oxygen Reduction Reaction in Alkaline Solution. (2021) ChemCatChem. DOI: 10.1002/cctc.202100758
  19. Ping, K; Alam, M.; Kahnert, S.R.; Bhadoria, R; Mere, A.; Mikli, V.; Käärik, M.; Aruväli, J.; Paiste, P.; Kikas, A.; Kisand, V.; Järving, I.; Leis, J.; Kongi, N.; Starkov, P. Multi-Purpose Heterogeneous Catalyst Material from an Amorphous Cobalt Metal–Organic Framework. (2021) Materials Advances, DOI: 10.1039/d1ma00414j
  20. Hussain, S.; Kongi, N.; Treshchalov, A.; Kahro, T.; Rähn, M.; Merisalu, M.; Tamm, A.; Sammelselg, V.; Tammeveski, K. Enhanced oxygen reduction reaction activity and durability of Pt nanoparticles deposited on graphene-coated alumina nanofibres. (2021) Nanoscale Advances, 3 (8), 2261−2268. DOI: 10.1039/d1na00007a.
  21. Kazimova, N.; Ping, K.; Danilson, M.; Merisalu, M.; Aruväli, J.; Käärik, M.; Mikli, V.; Leis, J.; Tammeveski, K.; Starkov, P.; Kongi, N. Shungite-derived graphene as a carbon support for bifunctional oxygen electrocatalysts. (2021) Journal of Catalysis, 395, 178−187. DOI: 10.1016/j.jcat.2021.01.004
  22. Hussain, S; Erikson, H.; Kongi, N.; Tarre, A.; Ritslaid, P.; Kikas, A.; Kisand, V.; Kozlova, J.; Aarik, J.; Tamm, A.; Sammelselg, V.; Tammeveski, K. Platinum sputtered on Nb-doped TiO2 films prepared by ALD: highly active and durable carbon-free ORR electrocatalyst. (2020) Journal of the Electrochemical Society, 167 (16), 164505. DOI: 10.1149/1945-7111/abcbb4
  23. Hussain, S.; Erikson, H.; Kongi, N.; Sarapuu, A.; Solla-Gullón, J.; Maia, G.; Kannan, A.M.; Alonso-Vante, N.; Tammeveski, K. (2020). Oxygen reduction reaction on nanostructured Pt-based electrocatalysts: A review. International Journal of Hydrogen Energy, DOI:10.1016/j.ijhydene.2020.08.215
  24. Ping, K.; Braschinsky, A.; Alam, M.; Bhadoria, R.; Mikli, V.; Mere, A.; Aruväli, J.; Paiste, P.; Vlassov, S.; Kook, M.; Rähn, M.; Sammelselg, V.; Tammeveski, K.; Kongi, N.; Starkov, P. (2020). Fused hybrid linkers for metal–organic frameworks-derived bifunctional oxygen electrocatalysts. ACS Applied Energy Materials, 3 (1) 152-157. DOI:10.1021/acsaem.9b02039
  25. Hussain, S.; Erikson, H.; Kongi, N.; Tarre, A.; Ritslaid, P.; Kook, M.; Rähn, M.; Merisalu, M.; Sammelselg, V.; Tammeveski, K. (2019). Improved ORR activity and long-term durability of Pt nanoparticles deposited on TiO2-decorated multiwall carbon nanotubes. Journal of the Electrochemical Society, 166 (16) F1284–F1291.
  26. Ping, K.; Alam, M.; Käärik, M.; Leis, J.; Kongi, N.; Järving, I.; Starkov, P. (2019). Surveying Iron–Organic Framework TAL-1 Derived Materials in Ligandless Heterogenous Oxidative Catalytic Transformations of Alkylarenes. Synlett, 30, 1536−1540. DOI: 10.1055/s-0037-1611877
  27. Hussain, S.; Kongi, N.; Erikson, H.; Rähn, M.; Merisalu, M.; Matisen, L.; Paiste, P.; Aruväli, J.; Sammelselg, V.; Estudillo-Wong, L.A.; Tammeveski, K.; Alonso-Vante, N. (2019). Platinum nanoparticles photo-deposited on SnO2-C composites: An active and durable electrocatalyst for the oxygen reduction reaction. Electrochimica Acta, 316, 162−172.
  28. Hussain, S.; Erikson, H.; Kongi, N.; Treshchalov, A.; Rähn, M.; Kook, M.; Merisalu, M.; Matisen, L.; Sammelselg, V.; Tammeveski, K. (2018). Oxygen electroreduction on Pt nanoparticles deposited on reduced graphene oxide and N-doped reduced graphene oxide prepared by plasma-assisted synthesis in aqueous solution. ChemElectroChem, 5 (19), 2902−2911.
  29. Hussain, S.; Erikson, H.; Kongi, N.; Tarre, A.; Ritslaid, P.; Rähn, M.; Matisen, L.; Merisalu, M.; Sammelselg, V.; Tammeveski, K. (2018). Pt nanoparticles sputter-deposited on TiO2/MWCNT composites prepared by atomic layer deposition: Improved electrocatalytic activity towards the oxygen reduction reaction and durability in acid media. International Journal Of Hydrogen Energy, 43 (10), 4967−4977.
  30. Hussain, S.; Erikson, H.; Kongi, N.; Merisalu, M.; Rähn, M.; Sammelselg, V.; Maia, G.; Tammeveski, K. (2017). Platinum particles electrochemically deposited on multiwalled carbon nanotubes for oxygen reduction reaction in acid media. Journal of the Electrochemical Society, 164 (9), F1014−F1021.
  31. Jukk, K.; Kongi, N.; Tammeveski, K.; Arán-Ais, R.M.; Solla-Gullón, J.; Feliu, J.M. (2017). Loading effect of carbon-supported platinum nanocubes on oxygen electroreduction. Electrochimica Acta, 251, 155−166.
  32. Jukk, K.; Kongi, N.; Tammeveski, K.; Solla-Gullon, J.; Feliu, J.M. (2017). Electroreduction of Oxygen on PdPt Alloy Nanocubes in Alkaline and Acidic Media. ChemElectroChem, 4(10), 2547–2555.
  33. Hussain, S.; Kongi, N.; Matisen, L.; Kozlova, J.; Sammelselg, V.; Tammeveski, K. (2017). Platinum nanoparticles supported on nitrobenzene-functionalised graphene nanosheets as electrocatalysts for oxygen reduction reaction in alkaline media. Electrochemistry Communications, 81, 79-83.
  34. Hussain, S.; Erikson, H.; Kongi, N.; Merisalu, M.; Ritslaid, P.; Sammelselg, V.; Tammeveski, K. (2017). Heat-treatment effects on the ORR activity of Pt nanoparticles deposited on multi-walled carbon nanotubes using magnetron sputtering technique. International Journal of Hydrogen Energy, 42(9), 5958-5970.
  35. Jukk, K.; Kongi, N.; Rauweel, P.; Matisen, L.; Tammeveski, K. (2016). Platinum Nanoparticles Supported on Nitrogen-Doped Graphene Nanosheets as Electrocatalysts for Oxygen Reduction Reaction. Electrocatalysis, 7(5), 428-440.
  36. Shypunov, I.; Kongi, N.; Kozlova, J.; Matisen, L.; Sammelselg, V.; Tammeveski, K. (2015). Enhanced Oxygen Reduction Reaction Activity with Electrodeposited Ag on Manganese Oxide–Graphene Supported Electrocatalyst. Electrocatalysis, 6(5), 465-471.
  37. Jukk; K.; Kongi, N.; Tammeveski, K.; Solla-Gullon, J.; Feliu, J.M. (2015). PdPt alloy nanocubes as electrocatalysts for oxygen reduction reaction in acid media. Electrochemistry Communications, 56, 11-15.
  38. Jukk, K.; Kongi, N.; Tarre, A.; Rosental, A.; Treshchalov, A.B.; Kozlova, J.; Ritslaid, P.; Matisen, L.; Sammelselg, V.; Tammeveski, K. (2014). Electrochemical oxygen reduction behaviour of platinum nanoparticles supported on carbon nanotube/titanium dioxide composites. Journal of Electroanalytical Chemistry, 735, 68 – 76.
  39. Jukk, K.; Kongi, N.; Matisen, L.; Kallio, T.; Kontturi, K.; Tammeveski, K. (2014). Electroreduction of oxygen on palladium nanoparticles supported on nitrogen-doped graphene nanosheets. Electrochimica Acta, 137, 206 - 212.
  40. Jukk, K.; Alexeyeva, N.; Ritslaid, P.; Kozlova, J; Sammelselg, V; Tammeveski, K. (2013). Electrochemical Reduction of Oxygen on Heat-Treated Pd Nanoparticle/Multi-Walled Carbon Nanotube Composites in Alkaline Solution. Electrocatalysis, 4(1), 42 - 48.
  41. Jukk, K.; Alexeyeva, N.; Sarapuu, A.; Ritslaid, P.; Kozlova, J.; Sammelselg, V.; Tammeveski, K. (2013). Electroreduction of oxygen on sputter-deposited Pd nanolayers on multi-walled carbon nanotubes . International Journal of Hydrogen Energy, 38(9), 3614 - 3620.
  42. Jukk, K.; Alexeyeva, N.; Ritslaid, P.; Kozlova, J.; Sammelselg, V.; Tammeveski, K. (2013). Sputter-deposited Pt nanoparticle/multi-walled carbon nanotube composite catalyst for oxygen reduction reaction . Journal of Electroanalytical Chemistry, 708, 31 - 38.
  43. Tiido, K.; Alexeyeva, N.; Couillard, M.; Bock, C.; MacDougall, B.R.; Tammeveski, K. (2013). Graphene-TiO2 Composite Supported Pt Electrocatalyst for Oxygen Reduction Reaction . Electrochimica Acta, 107, 509 - 517.
  44. Jukk, K.; Alexeyeva, N.; Johans, C.; Kontturi, K.; Tammeveski, K. (2012). Oxygen reduction on Pd nanoparticle/multi-walled carbon nanotube composites. Journal of Electroanalytical Chemistry, 666, 67 - 75.
  45. Erikson, H.; Sarapuu, A.; Alexeyeva, N.; Tammeveski, K.; Solla-Gullon, J.; Feliu, J.M. (2012). Electrochemical reduction of oxygen on palladium nanocubes in acid and alkaline solutions. Electrochimica Acta, 59, 329 - 335.
  46. Kruusenberg, I.; Alexeyeva, N.; Tammeveski, K.; Kozlova, J.; Matisen, L.; Sammelselg, V.; Solla-Gullon, J.; Feliu, J.M. (2011). Effect of purification of carbon nanotubes on their electrocatalytic properties for oxygen reduction in acid solution. Carbon, 49(12), 4031 - 4039.
  47. Alexeyeva, N.; Sarapuu, A.; Tammeveski, K.; Vidal-Iglesias, F.J.; Solla-Gullón, J.; Feliu, J.M. (2011). Electroreduction of oxygen on Vulcan carbon supported Pd nanoparticles and Pd-M nanoalloys in acid and alkaline solutions. Electrochimica Acta, 56(19), 6702 - 6708.
  48. Alexeyeva, N.; Shulga, E.; Kisand, V.; Kink, I.; Tammeveski, K. (2010). Electroreduction of oxygen on nitrogen-doped carbon nanotube modified glassy carbon electrodes in acid and alkaline solutions. Journal of Electroanalytical Chemistry, 648(2), 169 - 175.
  49. Alexeyeva, N.; Matisen, L.; Saar, A.; Laaksonen, P.; Kontturi, K.; Tammeveski, K. (2010). Kinetics of oxygen reduction on gold nanoparticle/multi-walled carbon nanotube hybrid electrodes in acid media. Journal of Electroanalytical Chemistry, 642(1), 6 - 12.
  50. Alexeyeva, N.; Kozlova, J.; Sammelselg, V.; Ritslaid, P.; Mändar, H.; Tammeveski, K. (2010). Electrochemical and surface characterisation of gold nanoparticle decorated multi-walled carbon nanotubes. Applied Surface Science, 256(10), 3040 – 3046.
  51. Alexeyeva, N.; Tammeveski, K.; Lopez-Cudero, A.; Solla-Gullón, J.; Feliu, J.M. (2010). Electroreduction of oxygen on Pt nanoparticle/carbon nanotube nanocomposites in acid and alkaline solutions. Electrochimica Acta, 55(3), 794 - 803.
  52. Kruusenberg, I.; Alexeyeva, N.; Tammeveski, K. (2009). The pH-dependence of oxygen reduction on multi-walled carbon nanotube modified glassy carbon electrodes. Carbon, 47(3), 651 - 658.
  53. Alexeyeva, N.; Tammeveski, K. (2008). Electroreduction of oxygen on gold nanoparticle/PDDA-MWCNT nanocomposites in acid solution. Analytica Chimica Acta, 618(2), 140 - 146.
  54. Lobyntseva, E.; Kallio, T.; Alexeyeva, N.; Tammeveski, K.; Kontturi, K. (2007). Electrochemical synthesis of hydrogen peroxide: Rotating disk electrode and fuel cell studies. Electrochimica Acta, 52(25), 7262 - 7269.
  55. Alexeyeva, N.; Tammeveski, K. (2007). Electrochemical reduction of oxygen on multi-walled carbon nanotubes modified glassy carbon electrodes in acid media. Electrochemical and Solid-State Letters, 10(5), F18 - F21.
  56. Alexeyeva, N.; Laaksonen, T.; Kontturi, K.; Mirkhalaf, F.; Schiffrin, D.J.; Tammeveski, K. (2006). Oxygen reduction on gold nanoparticle/multi-walled carbon nanotubes modified glassy carbon electrodes in acid solution. Electrochemistry Communications, 8 (9), 1475 - 1480.