2026

352. Efficient Acidic CO2 Electrolysis with Suppressed Crossover in a Separator-Based Membrane Electrode Assembly

352. Efficient Acidic CO2 Electrolysis with Suppressed Crossover in a Separator-Based Membrane Electrode Assembly

Liu, M., Li, Y., Huang, J. E., Chu, X., Sun, Q., Li, F., Xiao, Y. C., Fan, M., Wu, C., Wu, Z., Wang, Q., Zhu, J., Guo, Z., Li, X., Wibawa, S., Papangelakis, P., Bonnenfant, L., Moon, H. S., Dinh, C.-T., Miao, R. K., Sargent, E. H., Sinton, D., Journal of the American Chemical Society, 2026.

351. A High-Purity Ethylene Epoxide Stream Produced Using a Supported Electrocatalyst

351. A High-Purity Ethylene Epoxide Stream Produced Using a Supported Electrocatalyst

Huang, J. E., Wu, C., Chen, Y., Yu, J., Chen, Y., Ze, H., Kim, J., Wu, J., Bai, Y., Ma, X., Dorakhan, R., Peng, B., An, H., Miao, R. K., Liu, M., Fan, L., Park, S., Xie, K., Sinton, D., Sargent, E. H., Journal of the American Chemical Society, 2026.

350. Solvent tuning regulates proton flux to extend stability in reactive CO2 capture and electrolysis

350. Solvent tuning regulates proton flux to extend stability in reactive CO2 capture and electrolysis

Xiao, Y. C., Guo, Z., Wang, R., Li, F., Sun, S. S., Liu, M., Lee, H. S., Liu, J., Gabardo, C. M., Wang, C., Villamanca, D. M., Zhao, Y., Han, K., Miao, R. K., Corbett, P. J., Sinton, D., Chem Catalysis, 2026.

349. Carbon Dioxide Capture Emulsions Enable High-Rate Absorption in a High-Capacity Tertiary Amine

349. Carbon Dioxide Capture Emulsions Enable High-Rate Absorption in a High-Capacity Tertiary Amine

Saber, S., Zargartalebi, M., Sinton, D., ACS Applied Energy Materials (2026).

348. Strain boosts propanol electrosynthesis from CO on copper

348. Strain boosts propanol electrosynthesis from CO on copper

Wang, M., Loiudice, A., Ibáñez-Alé, E., Kumar, K., Stoian, D., Lian, Z., Zeraati, A. S., Li, X., Albertini, P., Zaza, L., Leemans, J., Sinton, D., López, N., Buonsanti, R., Nature Catalysis 1–11 (2026).

347. Electrosynthesis of ethylene from syngas

347. Electrosynthesis of ethylene from syngas

Li, F., Guo, Z., Yan, Y., Wang, Q., Liang, Y., Duan, L., Bonnenfant, L., Azimi Dijvejin, Z., Liu, M., Xiao, Y. C., Zhao, Z., Liu, J., Stepanovic, A., Gao, Y., Sun, Q., Abbas, H. G., Fan, M., Huang, J. E., Park, S., Holmes, S. M., Zhao, Y., Xu, Y., Dinh, C.-T., Wang, Z., Miao, R. K., Sinton, D., Nature Sustainability 1–10 (2026).

346. Small alkali cations direct CO electroreduction to hydrocarbons rather than oxygenates

346. Small alkali cations direct CO electroreduction to hydrocarbons rather than oxygenates

Ni, W., Liang, Y., Cao, Y., Chen, Z., Miao, R. K., Peng, B., Liu, Z., Liu, Y., Ze, H., Wang, X., Kim, D., Park, S., Yu, J., Papangelakis, P., Boureau, V., Imran, M., Wang, Q., Ou, P., Li, X.-Y., Xie, K., Dorakhan, R., Shirzadi, E., Schatz, G. C., Sinton, D., Ge, J., Zeng, J., Sargent, E. H., Nature Chemistry 1–8 (2026).

345. Toward inclusive energy futures: Reflections on the collective authorship of a multi-institutional, interdisciplinary, and community-engaged equity, diversity, and inclusion terms of reference

345. Toward inclusive energy futures: Reflections on the collective authorship of a multi-institutional, interdisciplinary, and community-engaged equity, diversity, and inclusion terms of reference

Hoicka, C. E., MacCallum, E., Hameed, A., Leung, L., Neville, K. J., Asher, L., Galloway, T., Higgins, D., McKinnon, L., Papineau, M., Teelucksingh, C., Tizya-Tramm, E., Azimi Dijvejin, Z., Bazylak, A., Bergerson, J., Berlinguette, C. P., Besco, L., Birss, V., Boon, D., Bullock, R., Chitsaz, S., Chew, S., Fitzgibbon, C., Foroozan, A., Huang, S., Jekill, N., Ji, T., Kilius, E., Maclean, H. L., Pitre, V., Ren, S., Riep, E., Riordon, J., Ross, M., Seferos, D. S., Shayesteh Zeraati, A., Shi, C., Tiwari, S., Williams, A., Wu, Y. A., Yao, X., Zhu, M., Van de. Coevering, D., Zurba, M., Sinton, D., Research Ethics (2026).

344. Stable acidic oxygen-evolving catalyst discovery through mixed accelerations

344. Stable acidic oxygen-evolving catalyst discovery through mixed accelerations

Bai, Y., Li, K., Han, N., Kim, J., Zhang, R., Mahesh, S., Shayesteh Zeraati, A., Sutherland, B. R., Chow, K., Liang, Y., Hoogland, S., Huang, J. E., Sinton, D., Sargent, E. H., Hattrick-Simpers, J., Nature Catalysis 1–9 (2026).

343. Confinement Reconstruction Unlocks Stable Ru Single Atom-Doped IrOx Anodes for Long-Term High-Rate CO2 Electrolysis

343. Confinement Reconstruction Unlocks Stable Ru Single Atom-Doped IrOx Anodes for Long-Term High-Rate CO2 Electrolysis

Wang, L., López-Estrada, O., Lu, S., Du, C., Soni, A., Wang, X., Wang, M., Wang, H., Singh, Z., Tirado, A., Billinghurst, B., Wei, W., Zhang, B., Chen, Z., Wang, J., Zhou, J., Sun, C.-J., Zhou, H., Smith, R. D. L., Kendall, B., Sinton, D., Siahrostami, S., Wu, Y. A., ACS Catalysis (2026).

342. Industrial amine blends enable efficient CO electrosynthesis in reactive capture

342. Industrial amine blends enable efficient CO electrosynthesis in reactive capture

Sun, S. S., Xiao, Y. C., Li, F., Wu, J., Che, Y., Wang, Y., Liu, M., Guo, Y., Fan, M., Han, K., Just, P.-E., J. Corbett, P., Miao, R. K., Sinton, D., EES Catalysis (2026).

341. Scaling electrocatalysts for reduction of CO2 or CO to multicarbon products

341. Scaling electrocatalysts for reduction of CO2 or CO to multicarbon products

Moon, H. S., Jaffer, S. A., Miao, R. K., Sargent, E. H., Sinton, D., Nature Reviews Materials 11, 244-254 (2026).

340. Hydroxyl-mediated interfacial oxophilicity engineering for efficient CO2-to-C2+ oxygenates conversion at industrial current densities

340. Hydroxyl-mediated interfacial oxophilicity engineering for efficient CO2-to-C2+ oxygenates conversion at industrial current densities

Wang, L., Yao, X., Jana, S., Wu, C., Chen, N., Singh, C. V., Sinton, D., Wu, Y. A., Applied Catalysis B: Environment and Energy 383, 126133 (2026).