2021

242. Electroosmotic flow steers neutral products and enables concentrated ethanol electroproduction from CO2

242. Electroosmotic flow steers neutral products and enables concentrated ethanol electroproduction from CO2

Miao, R.K., Xu, Y., Ozden, A., Robb, A., O’Brien, C.P., Gabardo, C.M., Lee, G., Edwards, J.P., Huang, J.E., Fan, M., Wang, X., Liu, S., Yan, Y., Sargent, E.H., Sinton, D., Joule 5, 10, 2742–2753 (2021).

241. In Situ Formation of Nano Ni-Co Oxyhydroxide Enables Water Oxidation Electrocatalysts Durable at High Current Densities

241. In Situ Formation of Nano Ni-Co Oxyhydroxide Enables Water Oxidation Electrocatalysts Durable at High Current Densities

Abed, J., Ahmadi, S., Laverdure, L., Abdellah, A., O’Brien, C.P., Cole, K., Sobrinho, P., Sinton, D., Higgins, D., Mosey, N.J., Thorpe, S.J., Sargent, E.H., Advanced Materials 33, 45, 2103812 (2021).

240. Glycerol Oxidation Pairs with Carbon Monoxide Reduction for Low-Voltage Generation of C2 and C3 Product Streams

240. Glycerol Oxidation Pairs with Carbon Monoxide Reduction for Low-Voltage Generation of C2 and C3 Product Streams

Yadegari, H., Ozden, A., Alkayyali, T., Soni, V., Thevenon, A., Rosas-Hernández, A., Agapie, T., Peters, J.C., Sargent, E.H., Sinton, D., ACS Energy Letters 6, 10, 3538–3544 (2021).

239. Single Pass CO2 Conversion Exceeding 85% in the Electrosynthesis of Multicarbon Products via Local CO2 Regeneration

239. Single Pass CO2 Conversion Exceeding 85% in the Electrosynthesis of Multicarbon Products via Local CO2 Regeneration

O’Brien, C.P., Miao, R.K., Liu, S., Xu, Y., Lee, G., Robb, A., Huang, J.E., Xie, K., Bertens, K., Gabardo, C.M., Edwards, J.P., Dinh, C.-T., Sargent, E.H., Sinton, D., ACS Energy Letters 6, 8, 2952–2959 (2021).

238. Downstream of the CO2 Electrolyzer: Assessing the Energy Intensity of Product Separation

238. Downstream of the CO2 Electrolyzer: Assessing the Energy Intensity of Product Separation

Alerte, T., Edwards, J. P., Gabardo, C. M., O’Brien, C. P., Gaona, A., Wicks, J., Obradović, A., Sarkar, A., Jaffer, S. A., MacLean, H. L., Sinton, D., Sargent, E. H., ACS Energy Letters 6, 12, 4405–4412 (2021).

237. Stable, active CO2 reduction to formate via redox-modulated stabilization of active sites

237. Stable, active CO2 reduction to formate via redox-modulated stabilization of active sites

Li, L., Ozden, A., Guo, S., Garcı́a de Arquer, F. P., Wang, C., Zhang, M., Zhang, J., Jiang, H., Wang, W., Dong, H., Sinton, D., Sargent, E.H., Zhong, M., Nature Communications 12, 1, 5223 (2021).

236. Reducing the crossover of carbonate and liquid products during carbon dioxide electroreduction

236. Reducing the crossover of carbonate and liquid products during carbon dioxide electroreduction

McCallum, C., Gabardo, C. M., O’Brien, C. P., Edwards, J. P., Wicks, J., Xu, Y., Sargent, E. H., Sinton, D., Cell Reports Physical Science 2, 8 (2021).

235. Gold Adparticles on Silver Combine Low Overpotential and High Selectivity in Electrochemical CO2 Conversion

235. Gold Adparticles on Silver Combine Low Overpotential and High Selectivity in Electrochemical CO2 Conversion

Ozden, A., Liu, Y., Dinh, C.-T., Li, J., Ou, P., García de Arquer, F. P., Sargent, E. H., Sinton, D., ACS Applied Energy Materials 4, 8, 7504–7512 (2021).

234. Boride-derived oxygen-evolution catalysts

234. Boride-derived oxygen-evolution catalysts

Wang, N., Xu, A., Ou, P., Hung, S.-F., Ozden, A., Lu, Y.-R., Abed, J., Wang, Z., Yan, Y., Sun, M.-J., Xia, Y., Han, M., Han, J., Yao, K., Wu, F.-Y., Chen, P.-H., Vomiero, A., Seifitokaldani, A., Sun, X., Sinton, D., Liu, Y., Sargent, E. H., Liang, H., Nature Communications 12, 1, 6089 (2021).

233. Gold-in-copper at low *CO coverage enables efficient electromethanation of CO2

233. Gold-in-copper at low *CO coverage enables efficient electromethanation of CO2

Wang, X., Ou, P., Wicks, J., Xie, Y., Wang, Y., Li, J., Tam, J., Ren, D., Howe, J. Y., Wang, Z., Ozden, A., Finfrock, Y. Z., Xu, Y., Li, Y., Rasouli, A. S., Bertens, K., Ip, A. H., Graetzel, M., Sinton, D., Sargent, E. H., Nature Communications 12, 1, 3387 (2021).

232. Effects of Hydrogen Peroxide on Cyanobacterium Microcystis aeruginosa in the Presence of Nanoplastics

232. Effects of Hydrogen Peroxide on Cyanobacterium Microcystis aeruginosa in the Presence of Nanoplastics

Guo, Y., O’Brien, A.M., Lins, T.F., Shahmohamadloo, R.S., Almirall, X.O., Rochman, C.M., Sinton, D., ACS ES&T Water 1, 7, 1596–1607 (2021).

231. AbCellera's success is unprecedented: what have we learned?

231. AbCellera's success is unprecedented: what have we learned?

Sinton, D., Kelley, S.O., Lab on a Chip 21, 12, 2330-2332 (2021).

230. CO2 electrolysis to multicarbon products in strong acid

230. CO2 electrolysis to multicarbon products in strong acid

Huang, J. E., Li, F., Ozden, A., Rasouli, A. S., de Arquer, F. P. G., Liu, S., Zhang, S., Luo, M., Wang, X., Lum, Y., Xu, Y., Bertens, K., Miao, R. K., Dinh, C.-T., Sinton, D., Sargent, E. H., Science 372, 6546, 1074–1078 (2021).

229. Evaluation of a Microencapsulated Phase Change Slurry for Subsurface Energy Recovery

229. Evaluation of a Microencapsulated Phase Change Slurry for Subsurface Energy Recovery

Soni, V., Saber, S., McPhee, H., Riordon, J., Zargartalebi, M., Holmes, M., Toews, M., Sinton, D., Energy & Fuels 35, 12, 10293–10302 (2021).

228. Low coordination number copper catalysts for electrochemical CO2 methanation in a membrane electrode assembly

228. Low coordination number copper catalysts for electrochemical CO2 methanation in a membrane electrode assembly

Xu, Y., Li, F., Xu, A., Edwards, J.P., Hung, S.-F., Gabardo, C.M., O’Brien, C.P., Liu, S., Wang, X., Li, Y., Wicks, J., Miao, R.K., Liu, Y., Li, J., Huang, J.E., Abed, J., Wang, Y., Sargent, E.H., Sinton, D., Nature Communications 12, 1, 2932 (2021).

227. Machine learning for sperm selection

227. Machine learning for sperm selection

You, J.B., McCallum, C., Wang, Y., Riordon, J., Nosrati, R., Sinton, D., Nature Reviews Urology 18, 7, 387–403 (2021).

226. Silica-copper catalyst interfaces enable carbon-carbon coupling towards ethylene electrosynthesis

226. Silica-copper catalyst interfaces enable carbon-carbon coupling towards ethylene electrosynthesis

Li, J., Ozden, A., Wan, M., Hu, Y., Li, F., Wang, Y., Zamani, R.R., Ren, D., Wang, Z., Xu, Y., Nam, D.-H., Wicks, J., Chen, B., Wang, X., Luo, M., Graetzel, M., Che, F., Sargent, E.H., Sinton, D., Nature Communications 12, 1, 2808 (2021).

225. Selection of high-quality sperm with thousands of parallel channels

225. Selection of high-quality sperm with thousands of parallel channels

Simchi, M., Riordon, J., You, J.B., Wang, Y., Xiao, S., Lagunov, A., Hannam, T., Jarvi, K., Nosrati, R., Sinton, D., Lab on a Chip 21, 12, 2464-2475 (2021).

224. Screening High-Temperature Foams with Microfluidics for Thermal Recovery Processes

224. Screening High-Temperature Foams with Microfluidics for Thermal Recovery Processes

de Haas, T. W., Bao, B., Acosta Ramirez, H., Abedini, A., Sinton, D., Energy & Fuels 35, 9, 7866–7873 (2021).

223. Suppressing the liquid product crossover in electrochemical CO2 reduction

223. Suppressing the liquid product crossover in electrochemical CO2 reduction

Wang, N., Miao, R.K., Lee, G., Vomiero, A., Sinton, D., Ip, A.H., Liang, H., Sargent, E.H., SmartMat 2, 1, 12–16 (2021).

222. Cascade CO2 electroreduction enables efficient carbonate-free production of ethylene

222. Cascade CO2 electroreduction enables efficient carbonate-free production of ethylene

Ozden, A., Wang, Y., Li, F., Luo, M., Sisler, J., Thevenon, A., Rosas-Hernández, A., Burdyny, T., Lum, Y., Yadegari, H., Agapie, T., Peters, J.C., Sargent, E.H., Sinton, D., Joule 5, 3, 706–719 (2021).

221. Designing anion exchange membranes for CO2 electrolysers

221. Designing anion exchange membranes for CO2 electrolysers

Salvatore, D.A., Gabardo, C.M., Reyes, A., O’Brien, C.P., Holdcroft, S., Pintauro, P., Bahar, B., Hickner, M., Bae, C., Sinton, D., Sargent, E.H., Berlinguette, C.P., Nature Energy 6, 4, 339-348 (2021).

220. A glucose meter interface for point-of-care gene circuit-based diagnostics

220. A glucose meter interface for point-of-care gene circuit-based diagnostics

Amalfitano, E., Karlikow, M., Norouzi, M., Jaenes, K., Cicek, S., Masum, F., Sadat Mousavi, P., Guo, Y., Tang, L., Sydor, A., Ma, D., Pearson, J.D., Trcka, D., Pinette, M., Ambagala, A., Babiuk, S., Pickering, B., Wrana, J., Bremner, R., Mazzulli, T., Sinton, D., Brumell, J.H., Green, A.A., Pardee, K., Nature Communications 12, 1, 724 (2021).

219. Self-Cleaning CO2 Reduction Systems: Unsteady Electrochemical Forcing Enables Stability

219. Self-Cleaning CO2 Reduction Systems: Unsteady Electrochemical Forcing Enables Stability

Xu, Y., Edwards, J.P., Liu, S., Miao, R.K., Huang, J.E., Gabardo, C.M., O’Brien, C.P., Li, J., Sargent, E.H., Sinton, D., ACS Energy Letters 6, 2, 809–815 (2021).

218. FertDish: microfluidic sperm selection-in-a-dish for intracytoplasmic sperm injection

218. FertDish: microfluidic sperm selection-in-a-dish for intracytoplasmic sperm injection

Xiao, S., Riordon, J., Simchi, M., Lagunov, A., Hannam, T., Jarvi, K., Nosrati, R., Sinton, D., Lab on a Chip 21, 4, 775–783 (2021).