84. Ru-based nanoparticles supported on carbon nanotubes for electrocatalytic hydrogen evolution: structural and electronic effects. N. Romero, D. A. Fenoll, L. Gil, S. Campos, J. Creus, G. Martí, J. Heras-Domingo, V.. Collière, C. A. Mesa, S. Giménez, L. Francàs, L. Rodríguez-Santiago, X. Solans-Monfort, M. Sodupe, R. Bofill, K. Philippot, J. García-Antón, X. Sala, Inorg. Chem. Front. 2023, Advance Article.
85. Surface-Functionalized Nanoparticles as Catalysts forArtificial Photosynthesis. G. Martí, L. Mallón, N. Romero, L. Francàs, R. Bofill, K. Philippot, J. García-Antón, X. Sala, Adv. Energ. Mater. 2023, 2300282.
86. Influence of Cocatalysts (Ni, Co, and Cu) and Synthesis Method on the Photocatalytic Activity of Exfoliated Graphitic Carbon Nitride for Hydrogen Production. Rana, A.G.; Schwarze, M.; Tasbihi, M.; Sala, X.; García-Antón, J.; Minceva, M., Nanomaterials 2022, 12, 4006. https://doi.org/10.3390/nano12224006
87. UV–Vis operando spectroelectrochemistry for (photo)electrocatalysis: Principles and guidelines. C. A. Mesa, E. Pastor, L. Francàs, Current Opinion in Electrochemistry, 2022, 35, 101098.
88. Unravelling the Mechanistic Pathway of the Hydrogen Evolution Reaction Driven by a Cobalt Catalyst. B. Jiang, M. Gil-Sepulcre, P. Garrido-Barros, C. Gimbert-Suriñach, J.-W. Wang, J. Garcia-Anton, P. Nolis, J. Benet-Buchholz, N. Romero, X. Sala, A. Llobet, Angewandte Chemie International Edition 2022, E202209075.

79. Editorial: Light-Assisted Molecular and Hybrid Systems for Artificial Photosynthesis. Mirco Natali, Xavier Sala, Souvik Roy, Andrea Pannwitz, and Albert Ruggi. Front. Chem. 2022

78. Insights into the Light-Driven Hydrogen Evolution Reaction of Mesoporous Graphitic Carbon Nitride Decorated with Pt or Ru Nanoparticles. I. Álvarez-Prada, A. D. Nguyen, N. Romero, L. Escriche, A. Thomas, R. Shoemächer, M. Schwarze, X. Sala, M. Tasbihi, M. Natali, J. García-Antón. Dalton Trans. 2022, 51, 731-740.

76. Consecutive Ligand-Based Electron Transfer in New Molecular Copper-Based Water Oxidation Catalysts. M. Gil-Sepulcre, P. Garrido-Barros, J. Oldegott, I. Funes-Ardoiz, R. Bofill, X. Sala, J. Benet Buchholz, A. Llobet. Angew. Chem. Int. Ed. 2021, 60, 18639-18644.

75. A molecular approach to the synthesis of platinum-decorated mesoporous graphitic carbon nitride as selective CO₂ reduction photocatalyst. M. Tasbihi, F. Fresno, I. Álvarez-Prada, A. Acharjya, A. Thomas, L. Escriche, N. Romero, X. Sala, V. A. de la Peña O’Shea, J. García-Antón. J. CO₂ Util. 2021, 101574.

74. Light-Driven Hydrogen Evolution Assisted by Covalent Organic Frameworks. N. Romero, R. Bofill, L. Francàs, J. García-Antón, X. Sala.* Catalysts. 2021, 11, 754-792.

73. Ruthenium Nanoparticles supported on Carbon-Based nanoallotropes as Co-Catalyst to Enhance the Photocatalytic Hydrogen Evolution activity of carbon nitride. I. Álvarez-Prada, D. Peral, M. Song, J. Muñoz, N. Romero, L. Escriche, A. Acharjya, A. Thomas, R. Shoemächer, M. Schwarze, X. Sala*, M. Tasbihi, J. García-Antón. Renewable Energy (2021), 168, 668-675.

72. Water oxidation electrocatalysis using ruthenium coordination oligomers adsorbed on multiwalled carbon nanotubes. M. A. Hoque, M. Gil-Sepulcre, A. de Aguirre, J. A. A. W. Elemans, D. Moonshiram, R. Matheu, Y. Shi, J. Benet-Buchholz, X. Sala, M. Marlfois, E. Solano, J. Lim, A. Garzón-Manjón, C. Sheu, M. Lanza, F. Maseras, C. Gimbert-Suriñach, A. Llobet. Nat. Chem. (2020), 12, 1060-1066.

71. TiO2-Mediated Visible-Light-Driven Hydrogen Evolution by Ligand-Capped Ru Nanoparticles.N. Romero, R. Barrach, L. Gil, S. Drouet, I. Salmeron-Sànchez, O. Illa, K. Philippot, M. Natali, J. García-Antón, X. Sala. Sust. Energy & Fuels (2020), 4, 4170-4179.