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Manipulating adsorbed hydrogen on lanthanum-modified CuOₓ: Industrial-current-density CO₂ electroreduction to C₂₊ products or CH₄ (2024)
Journal Article
Guo, Z., Zhu, H., Yan, Z., Lei, L., Wang, D., Xi, Z., Lian, Y., Yu, J., Fow, K. L., Do, H., Hirst, J. D., Wu, T., & Xu, M. (2025). Manipulating adsorbed hydrogen on lanthanum-modified CuOₓ: Industrial-current-density CO₂ electroreduction to C₂₊ products or CH₄. Applied Catalysis B: Environmental, 364, https://doi.org/10.1016/j.apcatb.2024.124839

The selective electrochemical CO2 reduction reaction (CO2RR) yields valuable C2+ and C1 products, yet the influence of adsorbed hydrogen (*H) on product distribution remains inadequately understood. This study explores this effect by developing bimet... Read More about Manipulating adsorbed hydrogen on lanthanum-modified CuOₓ: Industrial-current-density CO₂ electroreduction to C₂₊ products or CH₄.

Destabilizing high-capacity high entropy hydrides via earth abundant substitutions: from predictions to experimental validation (2024)
Journal Article
Agafonov, A., Pineda-Romero, N., Witman, M., Nassif, V., Vaughan, G. B., Lei, L., Ling, S., Grant, D. M., Dornheim, M., Allendorf, M., Stavila, V., & Zlotea, C. (2024). Destabilizing high-capacity high entropy hydrides via earth abundant substitutions: from predictions to experimental validation. Acta Materialia, 276, Article 120086. https://doi.org/10.1016/j.actamat.2024.120086

The vast chemical space of high entropy alloys (HEAs) makes trial-and-error experimental approaches for materials discovery intractable and often necessitates data-driven and/or first principles computational insights to successfully target materials... Read More about Destabilizing high-capacity high entropy hydrides via earth abundant substitutions: from predictions to experimental validation.