Google Scholar: Ian T. McCrum

  1. G. Gonella, E. H.G. Backus, Y. Nagata, D.J. Bonthuis, P. Loche, A. Schlaich, R.R. Netz, A. Khünle, I.T. McCrum, M. T.M. Koper, M. Wolf, B. Winter, G. Meijer, R. Kramer Campen, M. Bonn, “Water at Charged Interfaces“, Nature Reviews Chemistry, 5, 466-485 (2021).


  2. S.W. Wallace, I.T. McCrum, M.J. Janik, “Ammonia electro-oxidation mechanism on the platinum (100) surface“, Catalysis Today, 371, 50-57 (2021).


  3. L.P. Granda-Marulanda, I.T. McCrum, M.T.M. Koper, “A simple method to calculate solution-phase free energies of charged species in computational electrocatalysis“, Journal of Physics: Condensed Matter, 33, 204001 (2021).


  4. D. Aranzales, I. Briliani, I.T. McCrum, J.H.O.J. Wijenberg, A.C.A de Vooys, M. T.M. Koper, “The effect of naphthalene-based additives on tin electrodeposition on a gold electrode“, Electrochimica Acta, 368, 137606 (2021).


  5. L. Rebollar, S. Intikhab, N.J. Oliveira, Y. Yan, B. Xu, I.T. McCrum, J.D. Snyder, M.H. Tang, ““Beyond Adsorption” descriptors in hydrogen electrocatalysis“, ACS Catalysis, 10, 14747-14762 (2020).


  6. I.T. McCrum, M. T.M. Koper, “The role of adsorbed hydroxide in hydrogen evolution reaction kinetics on modified platinum“, Nature Energy, 5, 891-899 (2020). (Leiden University media coverage)


  7. X. Chen, L.P. Granda-Marulanda, I.T. McCrum, M.T.M. Koper, “Adsorption processes on a Pd monolayer modified Pt(111) electrode“, Chemical Science, 11, 1703-1713 (2020).


  8. S. Hanselman, I.T. McCrum, M.J. Rost, M.T.M. Koper, “Thermodynamics of the formation of surface PtO2 stripes on Pt(111) in the absence of subsurface oxygen“, PCCP, 22, 10634-10640 (2020).


  9. I.T. McCrum, C.J. Bondue, M. T.M. Koper, “Hydrogen-induced step-edge roughening of platinum electrode surfaces“, J. Phys. Chem. Lett., 10, 6842-6849 (2019).


  10. Y. Cong, I.T. McCrum, X. Gao, Y. Lv, S. Miao, Z. Shao, B. Yi, H. Yu, M.J. Janik, Y. Song, “Uniform Pd 0.33 Ir 0.67 nanoparticles supported on nitrogen-doped carbon with remarkable activity toward the alkaline hydrogen oxidation reaction“, Journal of Materials Chemistry A, 7, 3161-3169 (2019).


  11. M.J. Janik, I.T. McCrum, M. T.M. Koper, “On the presence of surface bound hydroxyl species on polycrystalline Pt electrodes in the “hydrogen potential region” (0-0.4 V-RHE)“, Journal of Catalysis, 367, 332-337 (2018).


  12. Y. Qiu, L. Xin, Y. Li, I.T. McCrum, F. Guo, T. Ma, Y. Ren, Q. Liu, L. Zhou, S. Gu, M.J. Janik, W. Li, “BCC-phased PdCu alloy as a highly active electrocatalyst for hydrogen oxidation in alkaline electrolytes“, JACS, 140, 16580-16588 (2018).
  13. T. J.P. Hersbach, I.T. McCrum, D. Anastasiadou, R. Wever, F. Calle-Vallejo, M.T.M. Koper, “Alkali metal cation effects in structuring Pt, Rh, and Au surfaces through cathodic corrosion“, ACS Applied Materials and Interfaces, 10, 39363-39379 (2018).
  14. D. Gao, I.T. McCrum, S. Deo, Y.W. Choi, F. Scholten, W. Wan, J.G. Chen, M.J. Janik, B. Roldan Cuenya, “Activity and selectivity control in CO2 electroreduction to multicarbon products over CuOx catalysts via electrolyte design“, ACS Catalysis, 8, 10012-10020 (2018).


  15. I.T. McCrum, X. Chen, K.A. Schwarz, M.J. Janik, M.T.M. Koper, “Effect of step density and orientation on the apparent pH dependence of hydrogen and hydroxide adsorption on stepped platinum surfaces“, J. Phys. Chem. C, 122, 16756-16764 (2018).


  16. I.T. McCrum, M.A. Hickner, M.J. Janik, “Quaternary ammonium cation specific adsorption on platinum electrodes: A combined experimental and density functional theory study“, J. EChem. Soc., 165, F114 (2018).


  17. X. Chen, I.T. McCrum, K.A. Schwarz, M.J. Janik, M.T.M. Koper, “Co-adsorption of cations as the cause of the apparent pH dependence of hydrogen adsorption on a stepped platinum single-crystal electrode“, Angew. Chem. Int. Ed., 56, 15025-15029 (2017).


  18. I.T. McCrum, M.A. Hickner, M.J. Janik, “First principles calculation of Pt surface energies in an electrochemical environment: thermodynamic driving forces for surface faceting and nanoparticle reconstruction“, Langmuir, 33, 7043-7052 (2017).


  19. I.T. McCrum, M.J. Janik, “Deconvoluting cyclic voltammograms to accurately calculate Pt electrochemically active surface area“, J. Phys. Chem. C, 121, 6237-6245 (2017).


  20. I.T. McCrum, M.J. Janik, “First principles simulations of cyclic voltammograms on stepped Pt(553) and Pt(533) electrode surfaces“, ChemElectroChem, 3, 1609-1617 (2016).


  21. S.A. Akhade, I.T. McCrum, M.J. Janik, “The impact of specifically adsorbed ions on the copper-catalyzed electroreduction of CO2“, J. EChem. Soc., 163, F477 (2016).


  22. I.T. McCrum, M.J. Janik, “pH and alkali cation effects on the Pt cyclic voltammogram explained using density functional theory“, J. Phys. Chem. C, 120, 457-471 (2016).


  23. I.T. McCrum, S.A. Akhade, M.J. Janik, “Electrochemical specific adsorption of halides on Cu 111, 100, and 211: A Density Functional Theory study“, Electrochimica Acta, 173, 302-309 (2015).


  24. J.N. Mills, I.T. McCrum, M.J. Janik, “Alkali cation specific adsorption onto fcc(111) transition metal electrodes“, PCCP, 16, 13699-13707 (2014).