Z. Chen#, C. Zhang#, Y. Teng, B. Pan, Z. Wang*, Y. Wang*. Immobilized organic cations augment CO electroreduction via molecular vibration modulation. J. Am. Chem. Soc. Accepted (2025)
F. Zeng#, X. Wang#, T. Yin#, J. Shen, B. Pan, W. Teng, T. Cheng*, Y. Wang*. Polymer-tethered pyridine tunes activities of the two distinct CO2 electroreduction sites on Cu. Nat. Commun. DOI: 10.1038/s41467-025-66673-0 (2025)
Y. Zhang, B. Pan, Y. Li, Y. Wang*. Electrochemical pH-swing CO2 capture facilitated by suppressed bubble accumulation at electrode/electrolyte interfaces. Angew. Chem. Int. Ed. DOI: 10.1002/anie.202513456 (2025)
X. Tan, T. Wang, Q. Chen, Y. Yang, M. Sun, F. Li, Y. Wang*. Understanding the roles of double- and triple-phase boundaries in high-temperature CO2 electrolysis. Nano Lett. 25, 16245-16252 (2025)
H. Lv, R. Zhang, R. A. Saha, A. Bandyopadhyay, R. Wei, G. Zheng, Y. Zhang*, W. Ning*, Y. Wang*. Synchronized
regulations of elementary steps and local environments promote formic acid
synthesis from metal-cation-free CO2 electroreduction. Chem Catal. Accepted (2025)
Y. Zhang, H. Bai, Y. Wang*. Reactor designs for pH-swing electrochemical CO2 capture. Curr. Opin. Electrochem. 53, 101731 (2025). (Invited Review)
Z. Chen, Y. Zhang, H. Deng, Y. Wang*. The impact of CO2 regeneration positions on electrochemical CO2 reduction. ChemElectroChem 12, e202500200 (2025). (Invited Review)
L. Zhang#, H. Ma#, Y. Sun#, Y. Zhao, H. Deng, Y. Wang, F. Wang*, X.-D Wen*, M. Luo*. Spontaneous water dissociation on intermetallic electride LaCu0.67Si1.33 enhances electrochemical methanization of CO2. Nat. Commun. 16, 5039 (2025).
T. Wang#, Y. Mao#, P. Ou#, Z.J. Wang#, Y.F. Li, H. Li, B. Pan, X. Lv, Y. Li, G. Zheng, C. Guan, Y. Cui, Z. Wang*, Y. Wang*. B-site-metal-mediated coke-resistant CO2 electrolysis on perovskite surfaces. Adv. Sci. 12, e03970 (2025).
W. Teng, Y. Wang*. Scaling CO electrolyzers for carbon-neutral chemical synthesis. ChemElectroChem 12, 202500043 (2025). (Invited research article)
H. Deng, Z. Chen, Y. Wang*. Ionomer and membrane designs for low-temperature CO2 and CO electrolysis. ChemSusChem 18, e202401728 (2025). (Invited review)
Z. Wen, M. Wang, C. Liang, B. Fan, Y. Yan, J. Fan, N. Han*, Y. Wang, Y. Li*. Cascade conversion of CO2 to ethylene carbonate under ambient conditions. J. Am. Chem. Soc. 146, 32575-32581 (2024).
H. Deng#, T. Liu#, W. Zhao#, J. Wang, S. Zhang, Y. Yang, C. Yang, W. Teng, Z. Chen, G. Zheng, F. Li, Y. Su*, J. Hui*, Y. Wang*. Substituent tuning of Cu coordination polymers enables carbon-efficient CO2 electroreduction to multi-carbon products. Nat. Commun. 15, 9706 (2024).
G. Han, X. Tan, T. Wang, M. Zhuansun, Y. Wang*. Enhanced oxygen evolution activity at amorphous hydroxide/perovskite interfaces. J. Phys. Chem. C 128, 17870-17877 (2024).
F. Zeng, B. Pan, L. Wang, Y. Li, Y. Wang*. On the role of electrolyte flow in Cu-catalyzed CO2 and CO electroreduction. Nano Energy 131, 110201 (2024). (Invited research article)
F. Zeng, H. Deng, M. Zhuansun, W. Teng, Y. Wang*. Benchmarking ionomers for CO2 electroreduction to multicarbon products in zero-gap electrolysers. J. Mater. Chem. A 12, 20990-20998 (2024)(Themed Collection: Emerging Investigators 2024).
J. Wang, Y. Zhang, H. Bai, H. Deng, B. Pan, Y. Li, Y. Wang*. Trilayer polymer electrolytes enable carbon-efficient CO2 to multicarbon product conversion in alkaline electrolyzers. Angew. Chem. Int. Ed. 63, e202404110 (2024).
M. Zhuansun, X. Wang, W. Teng, Y. Wang*. Understanding the temperature effect on carbon-carbon coupling during CO2 and CO electroreduction in zero-gap electrolyzers. Chin. J. Chem. 42, 2705-2711 (2024) (Special issue on "Emerging Investigators in 2024").
J. Han, H. Wang, Y. Wang, H. Zhang, J. Li, Y. Xia, J. Zhou, Z. Wang, M. Luo, Y. Wang, N. Wang, E. Cortés, Z. Wang, A. Vomiero, Z.-F. Huang, H. Ren, X. Yuan, S. Chen, D. Feng, X. Sun, Y. Liu, H. Liang. Lattice oxygen activation through deep oxidation of Co4N by Jahn−Teller-active dopants for improved electrocatalytic oxygen evolution. Angew. Chem. Int. Ed. 63, e202405839 (2024).
X. Wang†, R. Lu†, B. Pan, C. Yang, M. Zhuansun, J. Li, Y. Xu, S.-F. Hung, G. Zheng, Y. Li*, Z. Wang*, Y. Wang*. Enhanced carbon-carbon coupling at interfaces with abrupt coordination number changes. ChemSusChem 17, e202400150 (2024).
J. Fan, B. Pan, J. Wu, C. Shao, Z. Wen, Y. Yan, Y. Wang*, Y. Li*. Immobilized tetraalkylammonium cations enable metal-free CO2 electroreduction in acid and pure water. Angew. Chem. Int. Ed. 63, e202317828 (2024).
J. Wang†, Z. Zhang†, W. Wu, Y. Liu, B. Dong, Y. Wang*, Y. Wang*. Unraveling how local environments impact multicarbon product electrosynthesis in active carbon solutions. ACS Energy Lett. 9, 110-117 (2024).
G. Han, M. Zhuansun, T. Wang, Y. Wang*. B-site-metal exsolution on perovskite oxides activates alkaline water oxidation via the lattice oxygen mechanism. Adv. Mater. Interfaces 11, 2300760 (2024).
Y.Y. Wang†, Y. Wen†, Y. Cheng, X. Chen, M. Zhuansun, T. Wang, J. Li, D. Meira, H. Sun, J. Wei, J. Zhou*, Y. Wang*, S. He*. Enriched electrophilic oxygen species facilitate acidic oxygen evolution on Ru-Mo binary oxide catalysts. Nano Res. 17, 1165-1172 (2024).
H. Deng, Y. Wang*. Enriching 13C by electrochemical CO2 reduction. Chem Catal. 3, 100790 (2023) [preview].
M. Zhuansun†, Y. Liu†, R. Lu†, F. Zeng, Z. Xu, Y. Wang, Y. Yao*, Z. Wang*, G. Zheng*, Y. Wang*. Promoting CO2 electroreduction to multi-carbon products by hydrophobicity-induced electro-kinetic retardation. Angew. Chem. Int. Ed. 62, e202309875 (2023).
H.-C. P. Deng, Q. Hao, Y. Wang*. Face-mask-derived Ni, N-doped graphene sheets for electrocatalytic CO2-to-CO reduction. J. Solid State Electrochem. 27, 1261-1268 (2023). (Invited research article)
M. Luo†, A. Ozden†, Z. Wang†, F. Li†, J. E. Huang, S.-F. Hung, Y. Wang, J. Li, D.-H. Nam, Y. C. Li, Y. Xu, R. Lu, S. Zhang, Y. Lum, Y. Ren, L. Fan, F. Wang, H.-H. Li, D. Appadoo, C.-T. Dinh, Y. Liu, B. Chen, J. Wicks, H. Chen, D. Sinton*, E. H. Sargent*. Coordination polymer electrocatalysts enable efficient CO-to-acetate conversion Adv. Mater. 35, 2209567 (2023).
H. Wang, H. Zhang, Y. Huang, H. Wang, A. Ozden, K. Yao, H. Li, Q. Guo, Y. Liu, A.Vomiero, Y. Wang, Z. Qian, J. Li, Z. Wang, X. Sun, H. Liang*. Strain in copper/ceria heterostructure promotes electrosynthesis of multicarbon products. ACS Nano 17, 346-354 (2023).
D. Wang, J. Gui, B. Pan, M. Li, Y. Kuang, C. Zhang, J. Mao, Y. Loua, C. Pan, F. Li, Y. Li, Y. Wang*, Y. Zhu*, Y. Zhang*. Multi-microenvironment synergistically promoting CO2 electroreduction activity on porous Cu nanosheet. Appl. Catal. B: Environ. 322, 122119 (2023).
J. Zhang†, X. Mao†, B. Pan†, J. Xu, X. Ding, N. Han, L. Wang*, Y. Wang*, Y. Li*. Surface promotion of copper nanoparticles with alumina clusters derived from layered double hydroxide accelerates CO2 reduction to ethylene in membrane electrode assemblies. Nano Res. 16, 4685-4690 (2023).
A. Xu†, S.-F. Hung†, A. Cao†, Z. Wang†, N. Karmodak, J. E. Huang, Y. Yan, A. S. Rasouli, A. Ozden, F.-Y. Wu, Z.-Y. Lin, H.-J. Tsai, T.-J. Lee, F. Li, M. Luo, Y. Wang, X. Wang, J. Abed, Z. Wang, D.-H. Nam, Y. C. Li, A. H. Ip, D. Sinton, C. Dong*, E. H. Sargent*. Copper/alkaline earth metal oxide interfaces for electrochemical CO2-to-alcohol conversion by selective hydrogenation. Nat. Catal. 5, 1081-1088 (2022).
B. Pan†, J. Fan†, J. Zhang, Y. Luo, C. Shen, C. Wang, Y. Wang*, Y. Li*. Close to 90% single-pass conversion efficiency for CO2 electroreduction in an acid-fed membrane electrode assembly. ACS Energy Lett. 7, 4224-4231 (2022).
J. Xu†, H. Xu†, A. Dong†, H. Zhang*, Y. Zhou, H. Dong, B. Tang, Y. Liu, L. Zhang, X. Liu, J. Luo, L. Bie, S. Dai*, Y. Wang*, X. Sun, Y. Li*. Strong electronic metal-support interaction between iridium single atoms and WO3 support promotes highly efficient and robust CO2 cycloaddition. Adv. Mater. 34, 2206991 (2022).
M. Zhuansun, T. Wang, J. Wang, G. Han, X. Wang, Y. Wang*. Reactors for electro-upgrading carbon dioxide into value-added chemicals. Mater. Today Sustain. 19, 100185 (2022). (Invited review)
Y. Xie†, P. Ou†, X. Wang†, Z. Xu, Y. C. Li, Z. Wang, J. E. Huang, J. Wicks, C. McCallum, N. Wang, Y. Wang, T. Chen, B. T. W. Lo, D. Sinton, J. C. Yu, Y. Wang*, E. H. Sargent*. High carbon utilization in CO2 reduction to multi-carbon products in acidic media. Nat. Catal. 5, 564-570 (2022).
T. Wang, G. Han, Z. Wang*, Y. Wang*. Overcoming coke formation in high-temperature CO2 electrolysis. Chin. J. Catal. 43, 2938-2945 (2022). (Invited perspective paper)
B. Pan, Y. Wang*, Y. Li*. Understanding and leveraging the effect of cations in the electrical double layer for electrochemical CO2 reduction. Chem. Catal. 2, 1267-1276 (2022).
X. Jing, F. Li*, Y. Wang*. Assessing the economic potential of large-scale, carbonate-formation-free CO2 electrolysis. Catal. Sci. Technol. 12, 2912-2919 (2022).
Y. Ji†, Z. Chen†, R. Wei, C. Yang, Y. Wang, J. Xu, H. Zhang, A. Guan, J. Chen, T.-K. Sham, J. Luo, Y. Yang, X. Xu*, G. Zheng*. Selective CO-to-acetate electroreduction via intermediate adsorption tuning on ordered Cu-Pd sites. Nat. Catal. 5, 251-258 (2022).
Y. Li†, A. Ozden†, W. R. Leow†, P. Ou†, J. E. Huang, Y. Wang, K. Bertens, Y. Xu, Y. Liu, H. Jiang, D. Sinton, C. Li*, E. H. Sargent*. Redox-mediated electrosynthesis of ethylene oxide from CO2 and water. Nat. Catal. 5, 185-192 (2022).
A. Wu†, J. Yang†, B. Xu, X.-Y. Wu, Y. Wang, X. Lv, Y. Ma, A. Xu, J. Zheng, Q. Tan, Y. Peng, Z. Qi, H. Qi, J. Li, Y. Wang, J. Harding, X. Tu, A. Wang*, J. Yan*, X. Li*. Direct ammonia synthesis from the air via gliding arc plasma integrated with single atom electrocatalysis. Appl. Catal. B: Environ. 299, 120667 (2021).
Y. Luo†, K. Zhang†, Y. Li*, Y. Wang*. Valorizing carbon dioxide via electrochemical reduction on gas-diffusion electrodes. InfoMat 3, 1313-1332 (2021). (Invited review)
B. Pan, G. Yuan, X. Zhao, N. Han, Y. Huang, K. Feng, C. Cheng, J. Zhong, L. Zhang, Y.Wang*, Y. Li*. Highly dispersed indium oxide nanoparticles supported on carbon nanorods enabling efficient electrochemical CO2 reduction. Small Sci. 1, 2100029 (2021).
N. Wang, K. Yao, A. Vomiero, Y. Wang*, H. Liang*. Inhibiting carbon formation using CO2-CO-C2+ tandems. SmartMat 2, 423-425 (2021).
Q. Wang, T. Li, C. Yang, M. Chen, A. Guan, L. Yang, S. Li, X. Lv, Y. Wang, G. Zheng*. Electrocatalytic methane oxidation greatly promoted by chlorine intermediates. Angew. Chem. Int. Ed. 60, 17398-17403 (2021).
Y. Xu†, F. Li†, A. Xu, J. P. Edwards, S.-F. Hung, C. M. Gabardo, C. P. O’Brien, S. Liu, X. Wang, Y. Li, J. Wicks, R. K. Miao, Y. Liu, J. Li, J. E. Huang, J. Abed, Y. Wang, E. H. Sargent*, D. Sinton*. Low coordination number copper catalysts for electrochemical CO2 methanation in a membrane electrode assembly. Nat. Commun. 12, 2932 (2021).
J. Li†, A. Ozden†, M. Wan†, Y. Hu, F. Li, Y. Wang, R. R. Zamani, D. Ren, Z. Wang, Y. Xu, D.-H. Nam, J. Wicks, B. Chen, X. Wang, M. Luo, M. Graetzel, F. Che*, E. H. Sargent*, D. Sinton*. Silica-copper catalyst interfaces enable carbon-carbon coupling towards ethylene electrosynthesis. Nat. Commun. 12, 2808 (2021).
S. Zhang†, X. Jing†, Y. Wang*, F. Li*. Towards carbon‐neutral methanol production from carbon dioxide electroreduction. ChemNanoMat 7, 728-736 (2021).
Y. Wang, J. Liu, G. Zheng*. Designing copper-based catalysts for efficient carbon doxide electroreduction. Adv. Mater. 33, 2005798 (2021).
A. Ozden†, Y. Wang†, F. Li†, M. Luo, J. Sisler, A. Thevenon, A. Rosas-Hernández, T. Burdyny, Y. Lum, T. Agapie, J. C. Peters, E. H. Sargent*, D. Sinton*. Cascade CO2 electroreduction enables carbonate-free production of ethylene. Joule 5, 706-719 (2021).
Y. Chao, Y. Wang, L. Qian, A. Abdullah, L. Zhang, G. Zheng*. Heterogeneous electrocatalysts for CO2 reduction. ACS Appl. Energy. Mater. 4, 1034-1044 (2021).
Z. Gu†, H. Shen†, Z. Chen†, Y. Yang, C. Yang, Y. Ji, Y. Wang, C. Zhu, J. Liu, J. Li, T.-K. Sham, X. Xu*, G. Zheng*. Efficient electrocatalytic CO2 reduction to C2+ alcohols at defect-site-rich Cu surface. Joule 5, 429-440 (2021).
F. Tan†, M. I. Saidaminov†, H. Tan, J. Z. Fan, Y. Wang, S. Yue, X. Wang, Z. Shen, S. Li, J. Kim, Y. Gao, G. Yue, R. Liu, Z. Huang, C. Dong, X. Hu, W. Zhang*, Z. Wang*, S. Qu, Z. Wang, E. H. Sargent*. Dual coordination of Ti and Pb using bilinkable ligands improves perovskite solar cell performance and stability. Adv. Funct. Mater. 30, 2005155 (2020).
X. Lv†, L. Shang†, S. Zhou*, S. Li, Y. Wang, Z. Wang, T.-K. Sham, C. Peng, G. Zheng*. Electron-deficient Cu sites on Cu3Ag1 catalyst promoting CO2 electroreduction to alcohols. Adv. Energy Mater. 10, 2001987 (2020).
A. Ozden†, F. Li†, F. Pelayo García de Arquer, A. Rosas-Hernández, A. Thevenon, Y. Wang, S.-F. Hung, X. Wang, B. Chen, J. Li, J. Wicks, M. Luo, Z. Wang, T. Agapie*, J. C. Peters*, E. H. Sargent*, D. Sinton*. High-rate and efficient ethylene electrosynthesis using a catalyst:promoter:transport layer. ACS Energy Lett. 5, 2811-2818 (2020).
J. Li†, A. Xu†, F. Li, Z. Wang, C. Zou, C. M. Gabardo, Y. Wang, A. Ozden, Y. Xu, D.-H. Nam, Y. Lum, J. Wicks, B. Chen, Z. Wang, J. Chen, Y. Wen, T.-T. Zhuang, M. Luo, X. Du, T.-K. Sham, B. Zhang, E. H. Sargent*, D. Sinton*. Enhanced multi-carbon alcohol electroproduction from CO via modulated hydrogen adsorption. Nat. Commun. 11, 3685 (2020).
W. R. Leow†, Y. Lum†, A. Ozden, Y. Wang, D.-H. Nam, B. Chen, J. Wicks, T.-T. Zhuang, F. Li, D. Sinton, E. H. Sargent*. Chloride-mediated selective electrosynthesis of ethylene and propylene oxides at high current density. Science 368, 1228-1233 (2020).
Y. Wang†, A. Xu†, Z. Wang†, L. Huang, J. Li, F. Li, J. Wicks, M. Luo, D.-H. Nam, C.-S. Tan, Y. Ding, J. Wu, C.-T. Dinh, D. Sinton, G. Zheng, E. H. Sargent*. Enhanced nitrate-to-ammonia activity on copper-nickel alloys via tuning of intermediate adsorption. J. Am. Chem. Soc.142, 5702-5708 (2020).
Y. Wang†, Z. Wang†, C.-T. Dinh†, J. Li†, A. Ozden, M. G. Kibria, A. Seifitokaldani, C.-S. Tan, C. M. Gabardo, H. Zhou, F. Li, Y. Lum, C. McCallum, Y. Xu, M. Li, A. Proppe, A. Johnston, P. Todorovic, T.-T. Zhuang, D. Sinton, S. O. Kelly, E. H. Sargent*. Catalyst synthesis under CO2 electroreduction favours faceting and promotes multi-carbon hydrocarbon electrosynthesis. Nat. Catal. 3, 98-106 (2020).
F. Li†, Y. Li†, Z. Wang†, J. Li†, D.-H. Nam, Y. Lum, M. Luo, X. Wang, A. Ozden, S.-F. Hung, B. Chen, Y. Wang, J. Wicks, Y. Xu, Y. Li, C. M. Gabardo, C.-T. Dinh, Y. Wang, T.-T. Zhuang, D. Sinton, E. H. Sargent*. Cooperative CO2-to-ethanol conversion via enriched intermediates at molecule:metal catalyst interfaces. Nat. Catal. 3, 75-82 (2020).
Y. Lum†, J. E. Huang†, Z. Wang, M. Luo, D.-H. Nam, W. R. Leow, B. Chen, J. Wicks, Y. Li, Y. Wang, C.-T. Dinh, J. Li, T.-T. Zhuang, F. Li, T.-K. Sham, D. Sinton, E. H. Sargent*. Tuning hydroxyl binding energy enables selective electrochemical oxidation of ethylene to ethylene glycol. Nat. Catal. 3, 14-22 (2020).
F. Li†, A. Thevenon†, A. Rosas-Hernandez†, Z. Wang†, Y. Li†, C. M. Cabardo, A. Odzen, C.-T. Dinh, J. Li, Y. Wang, J. Edwards, Y. Xu, C. McCallum, L. Tao, Z.-Q. Liang, M. Luo, X. Wang, H.-H. Li, C. O’Brien, C.-S. Tan, D.-H. Nam, R. Quintero-Bermudez, T.-T. Zhuang, Y. Li, Z. Han, R. David Britt, D. Sinton, T. Agapie*, J. Peters*, E. H. Sargent*. Molecular tuning of CO2-to-ethylene conversion. Nature 557, 509-513 (2020).
M. Luo†, Y. Li†, Z. Wang†, J. Li, F. Li, Y. Lum, D.-H. Nam, B. Chen, J. Wicks, A. Xu, T.-T. Zhuang, W. R. Leow, X. Wang, C.-T. Dinh, Y. Wang, Y. Wang, D. Sinton, E. H. Sargent*. Hydroxide promotes carbon dioxide electroreduction to ethanol on copper via tuning of adsorbed hydrogen. Nat. Commun. 10, 5814 (2019).
X. Wang†, Z. Wang†, T.-T Zhuang, C.-T. Dinh, J. Li, D.-H. Nam, F. Li, C.-W. Huang, C.-S. Tan, Z. Chen, M. Chi, C. Gabardo, A. Seifitokadani, P. Todorvic, A. Proppe, Y. Pang, A. Kirmani, Y. Wang, A. H. Ip, L. Richter, S.-C. Lo, S. O. Kelley, D. Sinton, E. H. Sargent*. Efficient upgrading of CO to C3 fuel using asymmetric C-C coupling active sites. Nat. Commun. 10, 5186 (2019).
J. Li†, Z. Wang†, C. McCallum†, Y. Xu, F. Li, Y. Wang, C. M. Gabredo, C.-T. Dinh, T.-T. Zhuang, L. Wang, J. Howe, Y. Ren, E. H. Sargent*, D. Sinton*. Constraining CO coverage on copper promotes high-efficiency ethylene electroproduction. Nat. Catal. 2, 1124-1131 (2019).
Y. Wang†, J. Liu†, Y. Wang, Y. Wang, G. Zheng*. Efficient solar-driven electrocatalytic CO2 reduction in a redox-medium-assisted system. Nat. Commun. 9, 5003 (2018).
J. Li†, F. Che†, Y. Pang†, C. Zou†, J. Howe, T. Burdyny, J. P. Edwards, Y. Wang, F. Li, P. De Luna, C.T. Dinh, T.-T. Zhuang, M. I. Saidaminov, S. Cheng, T. Wu, Z. Finfrock, L. Ma, Z. Xie, Y. Liu, G. Botton, X. Du, J. Guo, T.-K. Sham, E. H. Sargent*, D. Sinton*. Copper adparticle enabled selective electrosynthesis of n-propanol. Nat. Commun. 9, 4614 (2018).
T.-T. Zhuang†, Y. Pang†, Z.-Q. Liang†, Y. Li, C.-S. Tan, H. Yuan, J. Li, C.-T. Dinh, P. De Luna, P.-L. Hsieh, T. Burdyny, H.-H. Li, M. Liu, Y. Wang, F. Li, A. Proppe, A. Johnston, Z.-Y. Yang, Y.-R. Zheng, E. Bladt, A. Ip, H. Tan, L.-J. Chen, S. Bals, J. Hofkens, S.-H. Yu, S. O. Kelley, D. Sinton*, E. H. Sargent*. Nanocavity confinement of intermediates enables efficient electroproduction of C3 liquid fuel. Nat. Catal. 1, 946-951 (2018).
Z.-Q. Liang†, T.-T. Zhuang†, A. Seifitokaldni†, J. Li, C.-W. Huang, C.-S. Tan, Y. Li, C.-T. Dinh, Y. Hu, Q. Xiao, P.-L. Hsieh, Y. Wang, F. Li, R. Quintero-Bermudez, Y. Zhou, P. Chen, Y. Pang, S.-C. Lo, L.-J. Chen, H. Tan, Z. Xu, S. Zhao, D. Sinton, E. H. Sargent*. Cooper-on-nitride enhances the stable electrosynthesis of multi-carbon products from CO2. Nat. Commun. 9, 3828 (2018).
M. Wang, H. Ge, Z. Jin, Y. Wang, M. Zhang, G. Zheng, Z.-S. Wang*. Hollow NiCo2Se4 microspheres composed of nanoparticles as multifunctional electrocatalysts for unassisted artificial photosynthesis. Electrochim. Acta 283, 628-637 (2018).
D.-H. Nam, O. S. Bushuyev, J. Li, P. De Luna, A. Seifitokaldani, C. T. Dinh, F. Pelayo García de Arquer, Y. Wang, Z. Liang, A. H. Proppe, C. S. Tan, P. Todorovic, O. Shekhah, C. M. Gabardo, J. W. Jo, J. Choi, M. Choi, S. Baek, J. Kim, D. Sinton, S. O. Kelley, M. Eddaoudi, E. H. Sargent*. Metal-organic frameworks mediate Cu coordination for selective CO2 electroreduction. J. Am. Chem. Soc. 40, 11378-11386 (2018).
Y. Wang, J. Liu, Y. Wang, A. M. Al-Enizi, G. Zheng*. Tuning of CO2 reduction selectivity on metal electrocatalysts. Small 13, 1701809 (2017).
S. He, Y. Hu, J. Wan, Q. Gao, Y. Wang, S. Xie, L. Qiu, C. Wang, G. Zheng, B. Wang*, H. Peng*. Biocompatible carbon nanotube fibers for implantable supercapacitors. Carbon 122, 162-167 (2017).
Yiliguma, Z. Wang, W. Xu, Y. Wang, X. Cui, A. E. Al-Enzi, Y. Tang*, G. Zheng*. Bridged-multi-octahedral cobalt oxide nanocrystals with a Co-terminated surface as an oxygen evolution and reduction electrocatalyst. J. Mater. Chem. A 5, 7416-7422 (2017).
Z. Zhang, L. Wang, Y. Li, Y. Wang, G. Guan, Z. Pan, G. Zheng, H. Peng*. Nitrogen-doped core-sheath carbon nanotube array for highly stretchable supercapacitor. Adv. Energy Mater. 7, 1601814 (2017).
Y. Wang, L. Chen, X. Yu, Y. Wang*, G. Zheng*. Superb alkaline hydrogen evolution and simultaneous electricity generation by Pt-decorated Ni3N nanosheets. Adv. Energy Mater. 7, 1601390 (2017).
Y. Wang†, X. Cui†, Y. Zhang†, L. Zhang, X. Gong*, G. Zheng*. Achieving high aqueous energy storage via hydrogen generation passivation. Adv. Mater. 28, 7626-7632 (2016).
Y. Zhang, Y. Wang, L. Wang, C. Lo, Y. Zhao, Y. Jiao, G. Zheng, H. Peng*. A fiber-shaped aqueous lithium ion battery with high power density. J. Mater. Chem. A 4, 9002-9008 (2016).
Q. Zhang, Y. Wang, Y. Wang, A. Elzatahry, A. M. Al-Enizi, G. Zheng*. Myriophyllum-like hierarchical nanowire arrays for bifunctional water splitting catalyst. J. Mater. Chem. A 4, 5713-5718 (2016).
Y. Wang†, J. Zeng†, X. Cui, L. Zhang, G. Zheng*. Separator integrated, reversely connectable symmetric Lithium-ion battery. Small 12,1091-1097 (2016).
Y. Wang, J. Zeng, J. Li, X. Cui, A. M. Al-Enizi, L. Zhang, G. Zheng*. One-dimensional nanostructures for flexible supercapacitors. J. Mater. Chem. A 3, 16382-16392 (2015).
Y. Wang, J. Tang, B. Kong, D. Jia, Y. Wang, T. An, L. Zhang, G. Zheng*. Freestanding 3D graphene/cobalt sulfide composites for supercapacitors and hydrogen evolution reaction. RSC Adv. 5, 6886-6891 (2015).
T. An, Y. Wang, J. Tang, Y. Wang, L. Zhang*, G. Zheng*. A flexible ligand-based wavy layered metal organic framework for lithium-ion storage. J. Colloid Interf. Sci. 445, 320-325 (2015).
J. Li, Y. Wang, J. Tang, Y. Wang, T. Wang, L. Zhang, G. Zheng*. Direct growth of mesoporous carbon-coated Ni nanoparticles on carbon fibers for flexible supercapacitors. J. Mater. Chem. A 3, 2876-2882 (2015).
H. Wu†, J. Geng†, Y. Wang, Y. Wang, Z. Peng, G. Zheng*. Bias-free, solar-charged electric double layer capacitors. Nanoscale 6, 15316-15320 (2014).
Y. Wang, Y. Wang, J. Tang, Y. Xia, G. Zheng*. Aqueous Li-ion cells with superior cycling performance using multi-channeled polyaniline/Fe2O3 nanotube anodes. J. Mater. Chem. A 2, 20177-20181 (2014).
R. Dai, Y. Wang, P. Da, H. Wu, M. Xu, G. Zheng*. Indirect growth of mesoporous Bi@C core-shell nanowires for enhanced lithium-ion storage. Nanoscale 6, 13236-13241 (2014).
L. Wei, Y. Wang, Y. Wang, M. Xu, G. Zheng*. Morphology-dependent V2O5 nanostructures grown on Ti foil for Li-ion battery. J. Colloid Interf. Sci. 432, 297-301 (2014).
J. Tang, Y. Wang, Y. Wang, J. Li, B. Kong, M. Jiang, G. Zheng*. Artificial metabolism-inspired photoelectrochemical probing of biomolecules and cells. J. Mater. Chem. A 2, 15752-15757 (2014).
Y. Wang, J. Tang, Z. Peng, Y. Wang, D. Jia, B. Kong, A. A. Elzatahry, D. Zhao, G. Zheng*. Fully solar-powered photoelectrochemical conversion for simultaneous energy storage and chemical sensing. Nano Lett. 14, 3668-3673 (2014).
Z. Peng, D. Jia, J. Tang, Y. Wang, Y. Wang, L. Zhang, G. Zheng*. CoNiO2/TiN–TiOxNy composites for ultrahigh electrochemical energy storage and simultaneous glucose sensing. J. Mater. Chem. A 2, 10904-10909 (2014).
Y. Wang, Y. Wang, D. Jia, Z. Peng, Y. Xia*, G. Zheng*. All-nanowire based Li-ion full cells using homologous Mn2O3 and LiMn2O4. Nano Lett. 14, 1080-1084 (2014).
T. Wang, Z. Peng, Y. Wang, J. Tang, G. Zheng*. MnO nanoparticle@mesoporous carbon composites grown on conducting substrates featuring high-performance lithium-ion battery, supercapacitor and sensor. Sci. Rep. 3, 2693 (2013).
G. Wang, J. Bai*, Y. Wang, Z. Ren, J. Bai. Preparation and electrochemical performance of cerium oxide-graphene nanocomposite as anode material for lithium ion battery. Scripta Mater. 65, 339342 (2011).
