Nature, Science, and Cell Families

2023

30. Jung Yoon ‘Timothy’ Kim, Chase Sellers, Shaoyun Hao, Thomas P. Senftle*, Haotian Wang*, “Different distributions of multi-carbon products in CO2 and CO electroreduction under practical reaction conditions“. Nature CatalysisDOI:10.1038/s41929-023-01082-4

29. Shou-Kun Zhang, Yuge Feng, Ahmad Elgazzar, Yang Xia, Chang Qiu, Zachary Adler, Chase Sellers, Haotian Wang*, “Interfacial electrochemical-chemical reaction coupling for efficient olefin oxidation to glycols“. Joule, DOI:10.1016/j.joule.2023.06.022. (2023)

28. Peng Zhu^, Zhen-Yu Wu^, Ahmad Elgazzar, Changxin Dong, Tae-Ung Wi, Feng-Yang Chen, Yang Xia, Yuge Feng, Mohsen Shakouri, Jung Yoon (Timothy) Kim, Zhiwei Fang, T. Alan Hatton & Haotian Wang,  “Continuous carbon capture in an electrochemical solid-electrolyte reactor“. Nature 618, 959–966 (2023). DOI: 10.1038/s41586-023-06060-1

2022

27. Z.Y. Wu^, F.Y. Chen^, B. Li^, S. Yu, Z. Finfrock, D. Meira, Q. Yan, P. Zhu, M. Chen, T. Song, Z. Yin, H. Liang, S. Zhang*, G. Wang*, and H. Wang*, Non-Iridium Based Electrocatalyst for Durable Acidic Oxygen Evolution Reaction in Proton Exchange Membrane Water Electrolysis, Nature Materials, DOI: 10.1038/s41563-022-01380-5 (2022).

26. Zhen-Yu Wu^, Peng Zhu^, David Cullen, Yongfeng Hu, Qiang-Qiang Yan, Shan-Cheng Shen, Feng-Yang Chen, Haoran Yu, Mohsen Shakouri, Jose Arregui-Mena, Amirkoushyar Ziabari, Alisa Paterson, Hai-Wei Liang, and Haotian Wang*, A general synthesis of single atom catalysts with controllable atomic and mesoporous structures, Nature Synthesis 1, 658 (2022).

25. Xiao Zhang^*, Xunhua Zhao^, Peng Zhu, Zhen-Yu Wu, Zachary Adler, Yuanyue Liu*, and Haotian Wang*, Electrochemical Oxygen Reduction to Hydrogen Peroxide at Practical Rates in Strong Acidic Media, Nature Communications 13, 2880 (2022).

24. L. Fan^, X. Bai^, C. Xia, X. Zhang, X. Zhao, Y. Xia, Z.Y. Wu, Y. Lu*, Y. Liu*, and H. Wang*, CO2/carbonate-mediated electrochemical water oxidation to hydrogen peroxide, Nature Communications 13, 2668 (2022).

23. F.Y. Chen^, Z.Y. Wu^, S. Gupta^, D. Rivera, S. Lambeets, S. Pecaut, J.Y. Kim, P. Zhu, Y.Z. Finfrock, D. Meira, G. King, G. Gao, W. Xu, D.A. Cullen, H. Zhou, Y. Han, D. Perea*, C. Muhich*, and H. Wang*, Efficient conversion of low-concentration nitrate sources into ammonia on Ru dispersed Cu nanowire electrocatalyst, Nature Nanotechnology, DOI: 10.1038/s41565-022-01121-4 (2022).

22. J.Y. Kim^, P. Zhu^, F.Y. Chen, Z.Y. Wu, D.A. Cullen, and H. Wang*, Recovering carbon losses in CO2 electrolysis using a solid electrolyte reactor, Nature Catalysis 5, 288 (2022).

2021

21. L. Fan^, C.Y. Liu^, P. Zhu, C. Xia , X. Zhang, Z.Y. Wu, Y. Lu*, T.P. Senftle*, and H. Wang*, Proton Sponge Promotion of Electrochemical CO2 Reduction to Multi-carbon Products, Joule 10.1016/j.joule.2021.12.002 (2021).

20. P. Zhu and H. Wang*, High-purity and high-concentration liquid fuels through CO2 electroreduction, Nature Catalysis 4, 943 (2021).

19. Y. Xia^, X. Zhao^, C. Xia, Z.Y. Wu, P. Zhu, J.Y. Kim, X. Bai, G. Gao, Y. Hu, J. Zhong, Y. Liu*,  and H. Wang*, Highly Active and Selective Oxygen Reduction to H2O2 on Boron-Doped Carbon for High Production Rates, Nature Communications 12, 4225 (2021).

18. F. Chen^, Z. Wu^, Z. Adler, and H. Wang*, Stability Challenges of Electrocatalytic Oxygen Evolution Reaction: From Mechanistic Understanding to Reactor Design, Joule, DOI: 10.1016/j.joule.2021.05.005 (2021).

17. C. Xia*, Y. Qiu, Y. Xia, P. Zhu, G. King, X. Zhang, Z. Wu, J. Kim, D.A. Cullen, D. Zheng, P. Li, M. Shakouri, E. Heredia, P. Cui, H.N. Alshareef, Y. Hu*, and H. Wang*, General synthesis of single-atom catalysts with high metal loading using graphene quantum dots, Nature Chemistry, DOI: 10.1038/s41557-021-00734-x (2021).

16. Z. Wu, M. Karamad, X. Yong, Q. Huang, D. Cullen, P. Zhu, C. Xia, Q. Xiao, M. Shakouri, F. Chen, J. Kim, Y. Xia, K. Heck, Y. Hu, M. Wong, Q. Li, I. Gates, S. Siahrostami*, and H. Wang*, Electrochemical ammonia synthesis via nitrate reduction on Fe single atom catalyst, Nature Communications 12, 2870 (2021).

15. P. Zhu^, C. Xia^, C-Y. Liu^, K. Jiang, G. Gao, X. Zhang, Y. Xia, Y. Lei, H. Alshareef, T.P. Senftle*, H. Wang*, Direct and continuous generation of pure acetic acid solutions via electrocatalytic carbon monoxide reduction, PNAS 118, e2010868118 (2021).

2020

14. C. Xia, J. Kim, and H. Wang*, Recommended practice to report selectivity in electrochemical synthesis of H2O2, Nature Catalysis 3, 605 (2020).

13. L. Fan^, C. Xia^, P. Zhu, Y. Lu*, and H. Wang*, ­­Electrochemical CO2 reduction to high-concentration pure formic acid solutions in an all-solid-state reactor, Nature Communications 11, 3633 (2020).

12. L. Fan^, C. Xia^, F. Yang, J. Wang, H. Wang*, and Y. Lu*, Strategies in catalysts and electrolyzer design for electrochemical CO2 reduction towards C2+ productsScience Advances 6, 3111 (2020).

11. C. Xia^, S. Back^, S. Ringe^, K. Jiang, F. Chen, X. Sun, S. Siahrostami*, K. Chen*, and H. Wang*, Confined local oxygen gas promotes electrochemical water oxidation to hydrogen peroxide, Nature Catalysis 3, 125 (2020).

2019

10. C. Xia^, Y. Xia^, P. Zhu, L. Fan, and H. Wang*, Direct electrosynthesis of pure aqueous H2O2 solutions up to 20% by weight using a solid electrolyte, Science 366, 226 (2019).

9. K. Jiang^, S. Back^, A.J. Akey, C. Xia, Y. Hu, W. Liang, D. Schaak, E. Stavitski, J.K. Nørskov, S. Siahrostami*, and H. Wang*, Highly selective oxygen reduction to hydrogen peroxide on transition metal single atom coordination, Nature Communications 10, 3997 (2019).

8. C. Xia, P. Zhu, Q. Jiang, Y. Pan, W. Liang, E. Stavitsk, H.N. Alshareef, and H. Wang*, Continuous production of pure liquid fuel solutions via electrocatalytic CO2 reduction using solid-electrolyte devices, Nature Energy 4, 776 (2019).

7. Y. Jia^, K. Jiang^, H. Wang*, and X. Yao*, The role of defect sites in nanomaterials for electrocatalytic energy conversion, Chem 5, 1371 (2019).

6. T. Zheng, K. Jiang, N. Ta, Y. Hu, J. Zeng, J. Liu, and H. Wang*, Large-scale and highly-selective CO2 electrocatalytic reduction on nickel single atom catalystJoule 3, 265 (2019).

2018

5. K. Jiang^, R.B. Sandberg^, A.J. Akey, X. Liu, D.C. Bell, J.K. Nørskov, K. Chan*, and H. Wang*, Metal ion Cycling of Cu Foil for Selective C-C coupling in Electrochemical CO2 ReductionNature Catalysis 1, 111 (2018).

2017

4. K. Jiang^, S. Siahrostami^, A.J. Akey, Y. Li, Z. Lu, J. Lattimer, Y. Hu, C. Stoke, M. Gangishetty, G. Chen, Y. Zhou, W. Hill, W.B. Cai, D.C. Bell, K. Chan, J.K. Nørskov, Y. Cui, and H. Wang*, Transition Metal Single Atoms in a Graphene Shell as Active Centers for Highly Efficient Artificial PhotosynthesisChem 3, 950–960 (2017).

2016

3. H. Wang, S. Xu, C. Tsai, Y. Li, C. Liu, J. Zhao, Y. Liu, H. Yuan, F. Abild-Pedersen, F.B. Prinz, J.K. Norskov, and Y. Cui*, Direct and continuous strain control of catalysts with tunable battery electrode materials, Science 354, 1031 (2016).

2015

2. H. Wang, H.W. Lee, Y. Deng, Z. Lu, P.C. Hsu, Y. Liu, D. Lin, and Y. Cui*, Bifunctional Non-noble Metal Oxide Nanoparticle Electrocatalysts through Lithium-induced Conversion for Overall Water Splitting, Nature Communications 6, 7261 (2015).

2014

1. Z. Lu^, H. Wang^, D. Kong, P. Hsu, G. Zheng, H. Yao, X. Sun, and Y. Cui*, Electrochemical Tuning of Layered Lithium Transition Metal Oxides For Improvement of Oxygen Evolution Reaction, Nature Communications 5, 4345 (2014).