Professor Yan Jiao

Head, School of Chemical Engineering

School of Chemical Engineering

Faculty of Sciences, Engineering and Technology

Eligible to supervise Masters and PhD - email supervisor to discuss availability.

My research endeavours to design superior electrocatalyst materials for clean energy conversion reactions (i.e. converting electrical energy into chemical energy and vice versa). Rooted in molecular modelling and through a multidisciplinary approach, my research work interweaves materials science, chemical engineering, nanotechnology, and physical chemistry.

I embarked on my academic journey by earning a PhD from the School of Chemical Engineering at The University of Queensland (UQ) in October 2012. My passion for research led me to the University of Adelaide, where I started as a Research Fellow followed by being appointed as Senior Lecturer in 2019. In 2021 when I was promoted to Associate Professor.

My dedication to the field has been recognized with several accolades, including the Young Tall Poppy Award in 2020. I am also honoured to be a finalist for the prestigious 2022 Malcolm McIntosh Prize for Physical Scientist of the Year. I am currently serving as a member of the College of Experts for the Australian Research Council (https://www.arc.gov.au/about-arc/arc-profile/arc-committees/arc-college-experts).

With a dedication to advancing knowledge, I have published more than 110 papers in esteemed journals such as Nature Energy, Nature Communications, Journal of the American Chemical Society, and Energy & Environmental Science. My research publications have collectively received more than 32,000 citations, with an h-index of 67. My work has also earned me the recognition of being a Highly-Cited Researcher in Chemistry by Clarivate Analytics.

My Research
Career
Publications
Grants and Funding
Teaching
Supervision
Contact

Yan

Research Expertise

Pioneering the Future of Energy Materials Design

My research expertise is centred on molecular modelling, a powerful tool that paves the way for innovative developments in computational electrochemistry and the design of energy materials through computational methods.

Background: Australia's Renewable Energy Landscape

Australia's abundant sunshine and prevailing wind have positioned the nation at the forefront of transitioning to a renewable energy-supported economy. South Australia is leading this charge and has achieved a 10-day running on 100% renewable energy in the summer of 2023. This rapid expansion of renewable electricity offers both immediate and long-term societal benefits, such as the reduction of millions of tons of CO₂ emissions, the resolution of energy crises, and the potential creation of substantial revenues for Australia in the energy market - possibly in the billions of dollars.

The challenge of converting and storing renewable electricity is central to our sustainable future. Catalyst materials can help achieve this goal, by converting excessively generated renewable electricity into chemicals and fuels (and many other relevant reactions). My research, focusing on molecular modelling, aims to meet this challenge by developing catalyst materials for efficient energy conversion. This method enables targeted material design, moving beyond traditional trial-and-error processes, and focuses on creating advanced catalysts. Utilizing hydrogen, carbon, nitrogen, and battery as energy carriers, with renewable energy as input, my work strives to produce and utilize clean fuels that align with our planet's well-being.

Methodology: Catalyst Discovery Enabled by Modelling and Collaborative Approach

The specific methodology I employ mainly involves molecular modelling on high-performance computers (HPC). By constructing atom-by-atom models of catalyst materials, I explore the energetics of reaction pathways. This involves creatively combining elements such as carbon, oxygen, nitrogen, and hydrogen to generate diverse chemicals and fuels. Such an understanding lays the foundation for designing catalyst materials that can produce more chemicals/fuels from the same amount of renewable electricity.

My research goes beyond mere theoretical computations. It includes extensive collaboration with experimental researchers, using their observations to shape my models and forecast more effective catalyst materials for experimental validation. Additionally, I am pushing the boundaries in computational electrochemistry theory, allowing for more accurate modeling of the energy conversion process and the design of more reliable catalyst materials.

Awards

2019-2022 Highly Cited Researcher (Chemistry) by Clarivate Analytics (Impact of Hi-Ci).
2022 Rising Stars of Science (Best Rising Stars of Science in Australia - 2022 Ranking | Research.com)
2022 Rising Stars by Energy & Fuels (2022 Energy and Fuels Rising Stars | Energy & Fuels (acs.org))
2021 Women of the Year Finalist, The Advertiser-Sunday Mail
2020 Young Tall Poppy Science Award
2019 Australian Research Council Future Fellow Award
2019 Rising Star by the Australian
2018 University of Adelaide Beacon Fellow
2015 Women’s Research Excellence Award – Early Career, UoA
2012 Dean's Award for Research Higher Degree Excellence, UQ

Media

2022 International Women’s Day highlight: https://ecms.adelaide.edu.au/news/list/2022/02/16/the-lure-of-beauty-and-purpose-in-physics
Featured on Create Digital, powered by Engineers Australia: https://www.createdigital.org.au/dr-yan-jiao-modelling-clean-energy-future/
UoA Global Engagement highlights: https://www.adelaide.edu.au/global-engagement/news/list/2020/09/22/international-research-yan-jiao
Humans of NCI (National Computing Infrastructure; best Australian high-performance computer) https://nci.org.au/research/people/dr-yan-jiao
THE DISCOVERY POD - Episode 6: Renewable Energy
Chemistry World promotion of our research work: Reaction confined between copper nanopyramids transforms carbon dioxide into ethylene glycol.

Appointments

Date	Position	Institution name
2024 - ongoing	Professor	University of Adelaide
2023 - ongoing	Acting Head, School of Chemical Engineering	University of Adelaide
2022 - ongoing	Deputy Head, School of Chemical Engineering	University of Adelaide
2021 - 2023	Associate Professor	University of Adelaide
2020 - ongoing	Future Fellow	University of Adelaide
2020 - 2021	Director of Research, School of Chemical Engineering and Advanced Materials	University of Adelaide
2019 - 2022	Theme Leader, Functional Materials, Faculty of ECMS	University of Adelaide
2019 - 2021	Senior Lecturer	University of Adelaide
2018 - ongoing	Deputy Director, Centre for Materials in Energy and Catalysis	University of Adelaide
2018 - 2018	Beacon Research Fellow	University of Adelaide
2012 - 2017	Postdoctoral Researcher	University of Adelaide

Awards and Achievements

Date	Type	Title	Institution Name	Country	Amount
2020	Award	Highly Cited Researcher (Chemistry)	Clarivate Analytics	Australia	-
2015	Award	Women's Research Excellence Awards Early Career, The University of Adelaide	-	-	-
2013	Award	Chinese Government Award for Outstanding Students Abroad	-	-	-
2013	Award	Dean's Award for Research Higher Degree Excellence, The University of Queensland	-	-	-
2012	Award	Graduate School International Travel Award, The University of Queensland	-	-	-
2009	Scholarship	UQIRTA, The University of Queensland	-	-	-
2009	Scholarship	School of Engineering Scholarship, The University of Queensland	-	-	-

Language Competencies

Language Competency

Chinese (Mandarin) Can read, write, speak, understand spoken and peer review

English Can read, write, speak, understand spoken and peer review
Education

Date Institution name Country Title

2009 - 2012 The University of Queensland Australia PhD

2001 - 2005 Ocean University of China China BSc
Research Interests

Density Functional Theory Electrochemistry Energy Generation, Conversion and Storage Engineering

Language	Competency
Chinese (Mandarin)	Can read, write, speak, understand spoken and peer review
English	Can read, write, speak, understand spoken and peer review

Date	Institution name	Country	Title
2009 - 2012	The University of Queensland	Australia	PhD
2001 - 2005	Ocean University of China	China	BSc

Journals

Year	Citation
2025	Cheng, J., Chen, L., Zhang, Y., Wang, M., Zheng, Z., Jiang, L., . . . Peng, Y. (2025). Metal-organic double layer to stabilize selective multi-carbon electrosynthesis.. Nat Commun, 16(1), 3743. DOI Scopus1
2025	Jiang, L., Zhi, X., Bai, X., & Jiao, Y. (2025). Atomic-Level Insights into Cation-Mediated Mechanism in Electrochemical Nitrogen Reduction.. J Am Chem Soc, 147(20), 16935-16947. DOI
2025	Mao, X., Bai, X., Wu, G., Qin, Q., O’Mullane, A. P., Jiao, Y., & Du, A. (2025). Correction to “Electrochemical Reduction of N<sub>2</sub> to Ammonia Promoted by Hydrated Cation Ions: Mechanistic Insights from a Combined Computational and Experimental Study”. Journal of the American Chemical Society. DOI
2024	Chen, C., Bai, X., Jiao, Y., Zheng, Y., & Qiao, S. -Z. (2024). Non-copper metals catalyzing deep CO₂ electroreduction to hydrocarbon. Journal of Materials Chemistry A, 12(46), 31925-31931. DOI
2024	Jiang, L., Bai, X., Zhi, X., Davey, K., & Jiao, Y. (2024). Advancing electrochemical N₂ reduction: interfacial electrolyte effects and operando computational approaches. EES Catalysis, 3(1), 57-79. DOI Scopus1
2024	Bai, X., Chen, C., Zhao, X., Zhang, Y., Zheng, Y., & Jiao, Y. (2024). Accelerating the Reaction Kinetics of CO₂ Reduction to Multi-Carbon Products by Synergistic Effect between Cation and Aprotic Solvent on Copper Electrodes. Angewandte Chemie International Edition, 63(9), e202317512-1-e202317512-11. DOI Scopus23 Europe PMC8
2024	Bai, X., Chen, C., Zhao, X., Zhang, Y., Zheng, Y., & Jiao, Y. (2024). Accelerating the Reaction Kinetics of CO<sub>2</sub> Reduction to Multi‐Carbon Products by Synergistic Effect between Cation and Aprotic Solvent on Copper Electrodes. Angewandte Chemie, 136(9). DOI
2024	Wu, Q., Dai, C., Meng, F., Jiao, Y., & Xu, Z. J. (2024). Potential and electric double-layer effect in electrocatalytic urea synthesis.. Nat Commun, 15(1), 11 pages. DOI Scopus50 Europe PMC11
2024	Jiang, L., Bai, X., Zhi, X., & Jiao, Y. (2024). New Mechanistic Insights into Electrokinetic Competition Between Nitrogen Reduction and Hydrogen Evolution Reactions. Advanced Energy Materials, 14(28), 2303809-1-2303809-11. DOI Scopus16
2024	Cui, M., Zhu, Y., Lei, H., Liu, A., Mo, F., Ouyang, K., . . . Huang, Y. (2024). Anion–Cation Competition Chemistry for Comprehensive High-Performance Prussian Blue Analogs Cathodes. Angewandte Chemie - International Edition, 63(23), 1-8. DOI Scopus14 Europe PMC4
2024	Mao, X., Bai, X., Wu, G., Qin, Q., O'Mullane, A. P., Jiao, Y., & Du, A. (2024). Electrochemical Reduction of N2 to Ammonia Promoted by Hydrated Cation Ions: Mechanistic Insights from a Combined Computational and Experimental Study. J Am Chem Soc, 146(27), 18743-18752. DOI Scopus17 Europe PMC9
2024	Zhang, T., Wang, S., & Jiao, Y. (2024). Editorial for Advanced Energy Materials, Special Issue on Electrocatalytic and Photocatalytic N<inf>2</inf> Fixation. Advanced Energy Materials, 14(28), 2 pages. DOI Scopus3
2024	Zhu, Y., Chen, Q., Hao, J., & Jiao, Y. (2024). Breaking hydrogen-bonds in aqueous electrolytes towards highly reversible zinc-ion batteries. Journal of Materials Chemistry A, 31(31), 20097-20106. DOI Scopus2
2024	Brooks, G. C., Chandler, H. C., Jiao, Y., Childs, D. Z., & Haas, C. A. (2024). Predicting the population viability of an endangered amphibian under environmental and demographic uncertainty. POPULATION ECOLOGY, 66(3), 184-195. DOI
2024	Guo, J., Haghshenas, Y., Jiao, Y., Kumar, P., Yakobson, B. I., Roy, A., . . . Xia, Z. (2024). Rational Design of Earth-Abundant Catalysts toward Sustainability. Advanced Materials, 36(42), 2407102-1-2407102-34. DOI Scopus10 Europe PMC2
2024	Zhao, Z., Law, C. S., Zhao, Y., Baron Jaimez, J. A., Talebian-Kiakalaieh, A., Li, H., . . . Santos, A. (2024). Elucidating Synergies of Single-Atom Catalysts in a Model Thin Film Photoelectrocatalyst to Maximize Hydrogen Evolution Reaction. Advanced Science, 11(41), 2407598-1-2407598-5. DOI Europe PMC1
2024	Cui, M., Zhu, Y., Lei, H., Liu, A., Mo, F., Ouyang, K., . . . Huang, Y. (2024). Anion–Cation Competition Chemistry for Comprehensive High‐Performance Prussian Blue Analogs Cathodes. Angewandte Chemie, 136(23). DOI
2023	Jiao, Y., Li, H., Jiao, Y., & Qiao, S. -Z. (2023). Activity and Selectivity Roadmap for C-N Electro-Coupling on MXenes. J Am Chem Soc, 145(28), 15572-15580. DOI Scopus59 WoS4 Europe PMC15
2023	Li, X., Li, H., Zhang, Z., Shi, J. Q., Jiao, Y., & Qiao, S. -Z. (2023). Active-learning accelerated computational screening of A₂B@NG catalysts for CO₂ electrochemical reduction. Nano Energy, 115, 108695-1-108695-9. DOI Scopus8
2023	Jiao, Y., & Zheng, Y. (2023). Boosting Alkaline Hydrogen Evolution Reaction through Water Structure Manipulation. Angewandte Chemie, 135(34). DOI
2023	Hao, J., Yuan, L., Zhu, Y., Bai, X., Ye, C., Jiao, Y., & Qiao, S. (2023). Low-cost and Non-flammable Eutectic Electrolytes for Advanced Zn-I2 Batteries. Angewandte Chemie (International ed. in English), 62(39), 1-8. DOI Scopus109 Europe PMC35
2023	Hao, J., Yuan, L., Zhu, Y., Bai, X., Ye, C., Jiao, Y., & Qiao, S. (2023). Low‐cost and Non‐flammable Eutectic Electrolytes for Advanced Zn‐I<sub>2</sub> Batteries. Angewandte Chemie, 135(39). DOI
2023	Cheng, J., Chen, L., Xie, X., Feng, K., Sun, H., Qin, Y., . . . Peng, Y. (2023). Proton Shuttling by Polyaniline of High Brønsted Basicity for Improved Electrocatalytic Ethylene Production from CO₂. Angewandte Chemie International Edition, 62(44), 1-11. DOI Scopus30 WoS2 Europe PMC4
2023	Gao, X., Bai, X., Wang, P., Jiao, Y., Davey, K., Zheng, Y., & Qiao, S. -Z. (2023). Boosting urea electrooxidation on oxyanion-engineered nickel sites via inhibited water oxidation. Nature Communications, 14(1), 5842-1-5842-10. DOI Scopus162 Europe PMC47
2023	Cheng, J., Chen, L., Xie, X., Feng, K., Sun, H., Qin, Y., . . . Peng, Y. (2023). Proton Shuttling by Polyaniline of High Brønsted Basicity for Improved Electrocatalytic Ethylene Production from CO<sub>2</sub>. Angewandte Chemie, 135(44). DOI
2023	Zhao, Y., Li, H., Shan, J., Zhang, Z., Li, X., Shi, J. Q., . . . Li, H. (2023). Machine Learning Confirms the Formation Mechanism of a Single-Atom Catalyst via Infrared Spectroscopic Analysis. Journal of Physical Chemistry Letters, 14(49), 11058-11062. DOI Scopus6
2023	Li, H., Jiao, Y., Davey, K., & Qiao, S. (2023). Data-driven Machine Learning for Understanding Surface Structures of Heterogeneous Catalysts. Angewandte Chemie International Edition, 62(9), e202216383-1-e202216383-13. DOI Scopus86 WoS8 Europe PMC23
2023	Kong, Q., An, X., Liu, Q., Xie, L., Zhang, J., Li, Q., . . . Sun, C. (2023). Copper-based catalysts for the electrochemical reduction of carbon dioxide: progress and future prospects.. Materials horizons, 10(3), 698-721. DOI Scopus38 WoS6 Europe PMC7
2023	Zhu, Y., Hao, J., Huang, Y., & Jiao, Y. (2023). A New Insight of Anti‐Solvent Electrolytes for Aqueous Zinc‐Ion Batteries by Molecular Modeling. Small Structures, 4(4), 1-9. DOI Scopus27
2023	Ran, J., Chen, L., Wang, D., Talebian Kiakalaieh, A., Jiao, Y., Adel Hamza, M., . . . Qiao, S. (2023). Atomic-Level Regulated Two-Dimensional ReSe₂ : A Universal Platform Boosting Photocatalysis. Advanced Materials, 35(19), 2210164-1-2210164-13. DOI Scopus72 WoS8 Europe PMC15
2023	Fu, S., Lewis, D., van Eyk, P., Atanackovic, P., & Jiao, Y. (2023). Theoretical screening of single atom doping on β-Ga₂O₃ (100) for photoelectrochemical water splitting with high activity and low limiting potential. Nanoscale, 15(15), 6913-6919. DOI Scopus4
2023	Wang, P., Bai, X., Jin, H., Gao, X., Davey, K., Zheng, Y., . . . Qiao, S. Z. (2023). Directed Urea-to-Nitrite Electrooxidation via Tuning Intermediate Adsorption on Co, Ge Co-Doped Ni Sites. Advanced Functional Materials, 33(25), 1-10. DOI Scopus80 WoS3
2023	Chen, L., Tang, C., Zheng, Y., Davey, K., & Jiao, Y. (2023). Triple-atom catalysts for one-step N–C–N coupling toward urea synthesis: A DFT study. Science China Materials, 66(6), 2346-2353. DOI Scopus20
2023	Shen, H., Jin, H., Li, H., Wang, H., Duan, J., Jiao, Y., & Qiao, S. -Z. (2023). Acidic CO2-to-HCOOH electrolysis with industrial-level current on phase engineered tin sulfide.. Nature Communications, 14(1), 10 pages. DOI Scopus135 WoS4 Europe PMC48
2023	Lin, J., Jiang, L., Tian, W., Yang, Y., Duan, X., Jiao, Y., . . . Wang, S. (2023). The structure-dependent mechanism of single-atom cobalt on macroporous carbon nitride in (photo-)Fenton-like reactions. Journal of Materials Chemistry A, 11(25), 13653-13664. DOI Scopus26 WoS1
2023	Jiao, Y., & Zheng, Y. (2023). Boosting Alkaline Hydrogen Evolution Reaction through Water Structure Manipulation. Angewandte Chemie International Edition, 62(34), e202307303-1-e202307303-3. DOI Scopus18 Europe PMC1
2023	Li, H., Jiang, Y., Li, X., Davey, K., Zheng, Y., Jiao, Y., & Qiao, S. -Z. (2023). C₂₊ Selectivity for CO₂ Electroreduction on Oxidized Cu-Based Catalysts. Journal of the American Chemical Society, 145(26), 14335-14344. DOI Scopus108 WoS4 Europe PMC33
2022	Liu, X., Jiao, Y., Zheng, Y., Jaroniec, M., & Qiao, S. -Z. (2022). Mechanism of C-N bonds formation in electrocatalytic urea production revealed by ab initio molecular dynamics simulation.. Nature communications, 13(1), 1-9. DOI Scopus121 WoS22 Europe PMC32
2022	Zhang, Z., Zhu, Y., Yu, M., Jiao, Y., & Huang, Y. (2022). Development of long lifespan high-energy aqueous organicIIiodine rechargeable batteries.. Nat Commun, 13(1), 1-11. DOI Scopus49 WoS4 Europe PMC15
2022	Shan, J., Ye, C., Zhu, C., Dong, J., Xu, W., Chen, L., . . . Qiao, S. -Z. (2022). Integrating Interactive Noble Metal Single-Atom Catalysts into Transition Metal Oxide Lattices.. Journal of the American Chemical Society, 144(50), 23214-23222. DOI Scopus90 WoS27 Europe PMC21
2022	Wang, X., Jiao, Y., Li, L., Zheng, Y., & Qiao, S. (2022). Local environment determined reactant adsorption configuration for enhanced electrocatalytic acetone hydrogenation to propane. Angewandte Chemie International Edition, 61(5), 7 pages. DOI Scopus48 WoS14 Europe PMC15
2022	Fu, S., Liu, X., Ran, J., & Jiao, Y. (2022). Theoretical considerations on activity of the alectrochemical CO₂ reduction on metal single-atom catalysts with asymmetrical active sites. Catalysis Today, 397-399, 574-580. DOI Scopus10 WoS5
2022	Chen, Z., Zhao, J., Jiao, Y., Wang, T., & Yin, L. (2022). Achieving efficient N2 electrochemical reduction by stabilizing the N2H* intermediate with the frustrated Lewis pairs. Journal of Energy Chemistry, 66, 628-634. DOI Scopus21 WoS9
2022	Chen, L., Tang, C., Zheng, Y., Skúlason, E., & Jiao, Y. (2022). C₃ production from CO₂ reduction by concerted CO trimerization on a single-atom alloy catalyst. Journal of Materials Chemistry A*, 10(11), 5998-6006. DOI Scopus39 WoS15
2022	Yee, K., Kankanamalage, U. M., Ghayesh, M. H., Jiao, Y., Hussain, S., & Amabili, M. (2022). Coupled dynamics of axially functionally graded graphene nanoplatelets-reinforced viscoelastic shear deformable beams with material and geometric imperfections. Engineering Analysis with Boundary Elements, 136, 4-36. DOI Scopus41 WoS16
2022	Zhou, X., Shan, J., Chen, L., Xia, B. Y., Ling, T., Duan, J., . . . Qiao, S. -Z. (2022). Stabilizing Cu²⁺ ions by solid solutions to promote CO₂ electroreduction to methane. Journal of the American Chemical Society, 144(5), 2079-2084. DOI Scopus343 WoS113 Europe PMC107
2022	Zhang, Z. S., Zhu, Y., Yu, M., Jiao, Y., & Huang, Y. (2022). Aqueous organic anode//iodine cascadable battery with ultra-long lifespan, high energy and power density. DOI
2022	Zhu, W., Wang, P., Chen, Z., Xu, C., Jiao, Y., Li, M., & Huang, Y. (2022). A one-pot self-assembled AgNW aerogel electrode with ultra-high electric conductivity for intrinsically 500% super-stretchable high-performance Zn-Ag batteries. JOURNAL OF MATERIALS CHEMISTRY A, 10(19), 10780-10789. DOI Scopus16 WoS8
2022	Zhang, Y., Gu, Z., Yun, S., Luo, K., Bi, J., Jiao, Y., & Zhang, H. (2022). Green synthesis of DOX-loaded hollow MIL-100 (Fe) nanoparticles for anticancer treatment by targeting mitochondria.. Nanotechnology, 33(34), 1-13. DOI Scopus5 WoS1 Europe PMC2
2022	Jiao, Y., Deng, L., Liu, D., Jiao, Y., Wang, D., & Chen, J. -F. (2022). Process intensification for Fe/Mn-nitrogen-doped carbon-based catalysts toward efficient oxygen reduction reaction of Zn-air battery. Chemical Engineering Science, 259, 9 pages. DOI Scopus9 WoS4
2022	Chen, L., Tang, C., Zheng, Y., Ostrikov, K., & Jiao, Y. (2022). Carbene Ligands Enabled C-N Coupling for Methylamine Electrosynthesis: A Computational Study. Energy and Fuels, 36(13), 7213-7218. DOI Scopus10 WoS1
2022	Ling, W., Yang, Q., Mo, F., Lei, H., Wang, J., Jiao, Y., . . . Huang, Y. (2022). An ultrahigh rate dendrite-free Zn metal deposition/striping enabled by silver nanowire aerogel with optimal atomic affinity with Zn. Energy Storage Materials, 51, 453-464. DOI Scopus45 WoS10
2022	Zhang, Y., Gu, Z., Bi, J., & Jiao, Y. (2022). Molybdenum-iron-cobalt oxyhydroxide with rich oxygen vacancies for the oxygen evolution reaction.. Nanoscale, 14(30), 10873-10879. DOI Scopus15 WoS6 Europe PMC1
2022	Zheng, M., Wang, P., Zhi, X., Yang, K., Jiao, Y., Duan, J., . . . Qiao, S. -Z. (2022). Electrocatalytic CO₂-to-C₂₊ with Ampere-Level Current on Heteroatom-Engineered Copper via Tuning CO Intermediate Coverage. Journal of the American Chemical Society, 144*(32), 14936-14944. DOI Scopus271 WoS52 Europe PMC80
2022	Yang, B., Chen, L., Xue, S., Sun, H., Feng, K., Chen, Y., . . . Peng, Y. (2022). Electrocatalytic CO₂ reduction to alcohols by modulating the molecular geometry and Cu coordination in bicentric copper complexes. Nature Communications, 13(1), 5122-1-5122-13. DOI Scopus116 WoS23 Europe PMC42
2021	Ma, L., Yu, Z., Jiao, Y., Lin, L., Zhong, W., Day, S. W., . . . Wang, G. (2021). Capacity of transportation and spread of COVID-19-an ironical fact for developed countries. ENVIRONMENTAL SCIENCE AND POLLUTION RESEARCH, 28(28), 37498-37505. DOI WoS2
2021	Yin, H., Sun, T., Yao, L., Jiao, Y., Ma, L., Lin, L., . . . Chen, H. (2021). Association between population density and infection rate suggests the importance of social distancing and travel restriction in reducing the COVID-19 pandemic. ENVIRONMENTAL SCIENCE AND POLLUTION RESEARCH, 28(30), 40424-40430. DOI WoS36
2021	Li, H., Meng, R., Guo, Y., Chen, B., Jiao, Y., Ye, C., . . . Qiao, S. (2021). Reversible electrochemical oxidation of sulfur in ionic liquid for high-voltage Al-S batteries. Nature Communications, 12(1), 5714-1-5714-8. DOI Scopus122 WoS59 Europe PMC23
2021	Ye, C., Shan, J., Chao, D., Liang, P., Jiao, Y., Hao, J., . . . Qiao, S. (2021). Catalytic oxidation of K₂S via atomic Co and pyridinic N synergy in potassium–sulfur batteries. Journal of the American Chemical Society, 143(41), 16902-16907. DOI Scopus66 WoS36 Europe PMC22
2021	Hao, J., Yuan, L., Johannessen, B., Zhu, Y., Jiao, Y., Ye, C., . . . Qiao, S. (2021). Studying the Conversion Mechanism to Broaden Cathode Options in Aqueous Zinc‐Ion Batteries. Angewandte Chemie, 133(47), 25318-25325. DOI
2021	Sun, H., Chen, L., Xiong, L., Feng, K., Chen, Y., Zhang, X., . . . Peng, Y. (2021). Promoting ethylene production over a wide potential window on Cu crystallites induced and stabilized via current shock and charge delocalization. Nature Communications, 12(1), 6823-1-6823-11. DOI Scopus100 WoS49 Europe PMC25
2021	Xiong, L., Zhang, X., Chen, L., Deng, Z., Han, S., Chen, Y., . . . Peng, Y. (2021). Geometric modulation of local CO Flux in Ag@Cu₂ O nanoreactors for steering the CO₂ RR pathway toward high-efficacy methane production. Adv Mater, 33(32), e2101741-1-e2101741-11. DOI Scopus194 WoS73 Europe PMC43
2021	Yao, D., Tang, C., Vasileff, A., Zhi, X., Jiao, Y., & Qiao, S. -Z. (2021). The controllable reconstruction of Bi‐MOFs for electrochemical CO₂ reduction through electrolyte and potential mediation. Angewandte Chemie International Edition, 60(33), 18178-18184. DOI Scopus245 WoS128 Europe PMC53
2021	Hua, W., Li, H., Pei, C., Xia, J., Sun, Y., Zhang, C., . . . Yang, Q. -H. (2021). Selective Catalysis Remedies Polysulfide Shuttling in Lithium-Sulfur Batteries. Adv Mater, 33(38), 2101006-1-2101006-12. DOI Scopus355 WoS176 Europe PMC67
2021	Zhi, X., Jiao, Y., Zheng, Y., & Qiao, S. -Z. (2021). Key to C₂ production: selective C-C coupling for electrochemical CO₂ reduction on copper alloy surfaces. Chemical Communications, 57(75), 9526-9529. DOI Scopus27 WoS12 Europe PMC6
2021	Yao, D., Tang, C., Vasileff, A., Zhi, X., Jiao, Y., & Qiao, S. (2021). The Controllable Reconstruction of Bi‐MOFs for Electrochemical CO2 Reduction through Electrolyte and Potential Mediation. Angewandte Chemie, 133(33), 18326-18332. DOI
2021	Hao, J., Yuan, L., Johannessen, B., Zhu, Y., Jiao, Y., Ye, C., . . . Qiao, S. (2021). Studying conversion mechanism to broaden cathode options in aqueous Zn-ion batteries. Angewandte Chemie International Edition, 60(47), 25114-25121. DOI Scopus99 WoS68 Europe PMC18
2021	Zhang, H. -P., Zhang, R., Sun, C., Jiao, Y., & Zhang, Y. (2021). CO2 reduction to CH4 on Cu-doped phosphorene: a first-principles study. Nanoscale, 13(48), 20541-20549. DOI Scopus11 WoS4 Europe PMC1
2021	Ye, C., Jin, H., Shan, J., Jiao, Y., Li, H., Gu, Q., . . . Qiao, S. -Z. (2021). A Mo₅N₆ electrocatalyst for efficient Na₂S electrodeposition in room-temperature sodium-sulfur batteries. Nature Communications, 12(1), 7195-1-7195-11. DOI Scopus119 WoS58 Europe PMC32
2021	Xia, X., Shi, B., Wang, L., Liu, Y., Zou, Y., Zhou, Y., . . . Song, C. -P. (2021). From mouse to mouse-ear cress: Nanomaterials as vehicles in plant biotechnology.. Exploration (Beijing), 1(1), 9-20. DOI Scopus41 Europe PMC19
2021	Xu, C., Zhi, X., Vasileff, A., Wang, D., Jin, B., Jiao, Y., . . . Qiao, S. (2021). Highly selective two-electron electrocatalytic CO₂ reduction on single‐atom Cu catalysts. Small Structures, 2(1), 1-7. DOI Scopus113 WoS67
2021	Fu, S., Liu, X., Ran, J., Jiao, Y., & Qiao, S. (2021). CO₂ reduction by single copper atom supported on g-C₃N₄ with asymmetrical active sites. Applied Surface Science, 540(Part 1), 1-7. DOI Scopus48 WoS26
2021	Chen, L., Tang, C., Jiao, Y., & Qiao, S. (2021). Anomalous C‐C coupling on under‐coordinated Cu(111) – a case study of Cu nanopyramids for CO2 reduction reaction by molecular modelling. ChemSusChem: chemistry and sustainability, energy and materials, 14(2), 671-678. DOI Scopus14 WoS6 Europe PMC5
2021	Wan, H., Jiao, Y., Bagger, A., & Rossmeisl, J. (2021). Three-dimensional carbon electrocatalysts for CO₂ or CO reduction. ACS Catalysis, 11(2), 533-541. DOI Scopus34 WoS24
2021	Zhi, X., Jiao, Y., Zheng, Y., Davey, K., & Qiao, S. -Z. (2021). Directing the selectivity of CO₂ electroreduction to target C₂ products via non-metal doping on Cu surfaces. Journal of Materials Chemistry A, 9(10), 6345-6351. DOI Scopus33 WoS21
2021	Shan, J., Ye, C., Chen, S., Sun, T., Jiao, Y., Liu, L., . . . Qiao, S. -Z. (2021). Short-range ordered iridium single atoms integrated into cobalt oxide spinel structure for highly efficient electrocatalytic water oxidation. Journal of the American Chemical Society, 143(13), 5201-5211. DOI Scopus421 WoS217 Europe PMC101
2021	Qu, Y., Wang, L., Yin, S., Zhang, B., Jiao, Y., Sun, Y., . . . Bi, J. (2021). Stability of Engineered Ferritin Nanovaccines Investigated by Combined Molecular Simulation and Experiments. J Phys Chem B, 125(15), 3830-3842. DOI Scopus11 WoS2 Europe PMC8
2021	Zhou, X., Dong, J., Zhu, Y., Liu, L., Jiao, Y., Li, H., . . . Qiao, S. (2021). Molecular scalpel to chemically cleave metal-organic frameworks for induced phase transition. Journal of the American Chemical Society, 142(17), 6681-6690. DOI Scopus132 WoS77 Europe PMC29
2021	Fan, Z., Zhang, C., Hua, W., Li, H., Jiao, Y., Xia, J., . . . Yang, Q. -H. (2021). Enhanced chemical trapping and catalytic conversion of polysulfides by diatomite/MXene hybrid interlayer for stable Li-S batteries. Journal of Energy Chemistry, 62, 590-598. DOI Scopus60 WoS38
2021	Tang, C., Chen, L., Li, H., Li, L., Jiao, Y., Zheng, Y., . . . Qiao, S. (2021). Tailoring acidic oxygen reduction selectivity on single-atom catalysts via modification of first and second coordination spheres. Journal of the American Chemical Society, 43(20), 4819-4827. DOI Scopus686 WoS338 Europe PMC186
2021	Chen, L., Tang, C., Davey, K., Zheng, Y., Jiao, Y., & Qiao, S. -Z. (2021). Spatial-confinement induced electroreduction of CO and CO₂ to diols on densely-arrayed Cu nanopyramids. Chemical Science, 23(23), 8086-8087. DOI Scopus27 WoS9 Europe PMC7
2021	Meng, R., Zhang, C., Lu, Z., Xie, X., Liu, Y., Tang, Q., . . . Yang, Q. H. (2021). An Oxygenophilic Atomic Dispersed Fe-N-C Catalyst for Lean-Oxygen Seawater Batteries. Advanced Energy Materials, 11(23), 9 pages. DOI Scopus45 WoS20
2021	Zhi, X., Vasileff, A., Zheng, Y., Jiao, Y., & Qiao, S. (2021). Role of oxygen-bound reaction intermediates in selective electrochemical CO₂ reduction. Energy and Environmental Science, 14(7), 3912-3930. DOI Scopus105 WoS56
2020	Hua, W., Li, H., Pei, C., Xia, J., Sun, Y., Zhang, C., . . . Yang, Q. -H. (2020). Selective catalysis remedies polysulfide shuttling in lithium-sulfur batteries. DOI
2020	Yang, Y., Wang, R., Yang, L., Jiao, Y., & Ling, T. (2020). Two dimensional electrocatalyst engineering via heteroatom doping for electrocatalytic nitrogen reduction. Chemical Communications, 56(91), 14154-14162. DOI Scopus19 WoS15 Europe PMC3
2020	Sun, H., Chen, L., Lian, Y., Yang, W., Lin, L., Chen, Y., . . . Qiao, S. (2020). Topotactically Transformed Polygonal Mesopores on Ternary Layered Double Hydroxides Exposing Under‐Coordinated Metal Centers for Accelerated Water Dissociation. Advanced Materials, 32(52), 2006784-1-2006784-9. DOI Scopus259 WoS148 Europe PMC50
2020	Zhao, Y., Jin, B., Vasileff, A., Shi, B., Jiao, Y., & Qiao, S. (2020). The ampoule method: a pathway towards controllable synthesis of electrocatalysts for water electrolysis. Chemistry - A European Journal, 26(18), 3898-3905. DOI Scopus5 WoS4
2020	Zhang, H. P., Kou, L., Jiao, Y., Du, A., Tang, Y., & Ni, Y. (2020). Strain engineering of selective chemical adsorption on monolayer black phosphorous. Applied Surface Science, 503, 6 pages. DOI Scopus41 WoS24
2020	Li, H., Chao, D., Chen, B., Chen, X., Chuah, C., Tang, Y., . . . Qiao, S. -Z. (2020). Revealing principles for design of lean-electrolyte lithium metal anode via In situ spectroscopy. Journal of the American Chemical Society, 142(4), 2012-2022. DOI Scopus165 WoS121 Europe PMC30
2020	Liu, X., Jiao, Y., Zheng, Y., & Qiao, S. Z. (2020). Isolated boron sites for electroreduction of dinitrogen to ammonia. ACS Catalysis, 10(3), 1847-1854. DOI Scopus188 WoS107
2020	Ye, C., Jiao, Y., Chao, D., Ling, T., Shan, J., Zhang, B., . . . Qiao, S. -Z. (2020). Electron-state confinement of polysulfides for highly stable sodium-sulfur batteries. Advanced Materials, 32(12), 1907557-1-1907557-8. DOI Scopus178 WoS123 Europe PMC37
2020	Zhi, X., Jiao, Y., Zheng, Y., Vasileff, A., & Qiao, S. Z. (2020). Selectivity roadmap for electrochemical CO₂ reduction on copper-based alloy catalysts. Nano Energy, 71, 104601-1-104601-8. DOI Scopus140 WoS94
2020	Tang, C., Jiao, Y., Shi, B., Liu, J. -N., Xie, Z., Chen, X., . . . Qiao, S. (2020). Coordination tunes selectivity: two-electron oxygen reduction on high-loading Molybdenum single-atom catalysts. Angewandte Chemie International Edition, 59(23), 9171-9176. DOI Scopus482 WoS333 Europe PMC96
2020	Chen, Z., Chen, Z., Liu, X., Zhao, J., Jiao, Y., Yin, L., & Yin, L. (2020). Strain effect on the catalytic activities of B- And B/N-doped black phosphorene for electrochemical conversion of CO to valuable chemicals. Journal of Materials Chemistry A, 8(24), 11986-11995. DOI Scopus35 WoS33
2020	Xie, F., Zhang, L., Jiao, Y., Vasileff, A., Chao, D., & Qiao, S. -Z. (2020). Hydrogenated dual-shell sodium titanate cubes for sodium-ion batteries with optimized ion transportation. Journal of Materials Chemistry A, 8(31), 15829-15833. DOI Scopus16 WoS15
2020	Tang, C., Jiao, Y., Shi, B., Liu, J. N., Xie, Z., Chen, X., . . . Qiao, S. Z. (2020). Coordination Tunes Selectivity: Two-Electron Oxygen Reduction on High-Loading Molybdenum Single-Atom Catalysts. Angewandte Chemie, 132(23), 9256-9261. DOI Scopus12
2019	Zhi, X., Jiao, Y., Zheng, Y., & Qiao, S. Z. (2019). Impact of interfacial electron transfer on electrochemical CO₂ reduction on graphitic carbon nitride/doped graphene. Small, 15(10), 1804224-1-1804224-7. DOI Scopus87 WoS67 Europe PMC6
2019	Liu, X., Jiao, Y., Zheng, Y., Davey, K., & Qiao, S. Z. (2019). A computational study on Pt and Ru dimers supported on graphene for the hydrogen evolution reaction: new insight into the alkaline mechanism. Journal of Materials Chemistry A, 7(8), 3648-3654. DOI Scopus151 WoS123
2019	Chen, P., Jiao, Y., Zhu, Y. H., Chen, S. M., Song, L., Jaroniec, M., . . . Qiao, S. Z. (2019). Syngas production from electrocatalytic CO₂ reduction with high energetic efficiency and current density. Journal of Materials Chemistry A, 7(13), 7675-7682. DOI Scopus67 WoS53
2019	Zheng, Y., Vasileff, A., Zhou, X., Jiao, Y., Jaroniec, M., & Qiao, S. Z. (2019). Understanding the roadmap for electrochemical reduction of CO₂ to multi-carbon oxygenates and hydrocarbons on copper-based catalysts. Journal of the American Chemical Society, 141(19), 7646-7659. DOI Scopus865 WoS547 Europe PMC133
2019	Zhao, Y., Jin, B., Vasileff, A., Jiao, Y., & Qiao, S. Z. (2019). Interfacial nickel nitride/sulfide as a bifunctional electrode for highly efficient overall water/seawater electrolysis. Journal of Materials Chemistry A, 7(14), 8117-8121. DOI Scopus183 WoS131
2019	Jin, H., Liu, X., Chen, S., Vasileff, A., Li, L., Jiao, Y., . . . Qiao, S. Z. (2019). Heteroatom-doped transition metal electrocatalysts for hydrogen evolution reaction. ACS Energy Letters, 4(4), 805-810. DOI Scopus388 WoS276
2019	Liu, X., Jiao, Y., Zheng, Y., Jaroniec, M., & Qiao, S. Z. (2019). Building up a picture of the electrocatalytic nitrogen reduction activity of transition metal single-atom catalysts. Journal of the American Chemical Society, 141(24), 9664-9672. DOI Scopus763 WoS555 Europe PMC114
2019	You, B., Zhang, Y., Jiao, Y., Davey, K., & Qiao, S. Z. (2019). Negative charging of transition-metal phosphides via strong electronic coupling for destabilization of alkaline water. Angewandte Chemie International Edition, 58(34), 11796-11800. DOI Scopus181 WoS124 Europe PMC25
2019	Zhao, Y., Jin, B., Vasileff, A., Jiao, Y., & Qiao, S. -Z. (2019). Contemporaneous oxidation state manipulation to accelerate intermediate desorption for overall water electrolysis. Chemical Communications, 55(57), 8313-8316. DOI Scopus8 WoS7 Europe PMC1
2019	Zhao, Y., Ling, T., Chen, S., Jin, B., Vasileff, A., Jiao, Y., . . . Qiao, S. Z. (2019). Non-metal single-iodine-atom electrocatalysts for the hydrogen evolution reaction. Angewandte Chemie International Edition, 58(35), 12252-12257. DOI Scopus205 WoS154 Europe PMC25
2019	Guo, C., Jiao, Y., Zheng, Y., Luo, J., Davey, K., & Qiao, S. Z. (2019). Intermediate modulation on noble metal hybridized to 2D metal-organic framework for accelerated water electrocatalysis. Chem, 5(9), 2429-2441. DOI Scopus188 WoS131
2019	Vasileff, A., Zhi, X., Xu, C., Ge, L., Jiao, Y., Zheng, Y., & Qiao, S. Z. (2019). Selectivity control for electrochemical CO2 reduction by charge redistribution on the surface of copper alloys. ACS Catalysis, 9(10), 9411-9417. DOI Scopus192 WoS143
2019	Zhang, B. -W., Jiao, Y., Chao, D. -L., Ye, C., Wang, Y. -X., Davey, K., . . . Qiao, S. -Z. (2019). Targeted synergy between adjacent co atoms on graphene oxide as an efficient new electrocatalyst for Li-CO2 batteries. Advanced Functional Materials, 29(49), 1904206-1-1904206-7. DOI Scopus108 WoS76
2019	Wang, X., Vasileff, A., Jiao, Y., Zheng, Y., & Qiao, S. (2019). Electronic and structural engineering of carbon-based metal-free electrocatalysts for water splitting. Advanced Materials, 31(13), 1803625. DOI Scopus290 WoS218 Europe PMC50
2018	Jin, H., Liu, X., Jiao, Y., Vasileff, A., Zheng, Y., & Qiao, S. (2018). Constructing tunable dual active sites on two-dimensional C₃N₄@MoN hybrid for electrocatalytic hydrogen evolution. Nano Energy, 53, 690-697. DOI Scopus202 WoS157
2018	Ye, C., Jiao, Y., Jin, H., Slattery, A., Davey, K., Wang, H., & Qiao, S. (2018). 2D MoN-VN heterostructure to regulate polysulfides for highly efficient lithium-sulfur batteries. Angewandte Chemie International Edition, 57(51), 16703-16707. DOI Scopus331 WoS292 Europe PMC46
2018	Qu, K., Wang, Y., Vasileff, A., Jiao, Y., Chen, H., & Zheng, Y. (2018). Polydopamine-inspired nanomaterials for energy conversion and storage. Journal of Materials Chemistry A, 6(44), 21827-21846. DOI Scopus102 WoS89
2018	Jin, H., Liu, X., Vasileff, A., Jiao, Y., Zhao, Y., Zheng, Y., & Qiao, S. (2018). Single-crystal nitrogen-rich two-dimensional Mo₅N₆ nanosheets for efficient and stable seawater splitting. ACS Nano, 12(12), 12761-12769. DOI Scopus377 WoS257 Europe PMC51
2018	Jin, H., Guo, C., Liu, X., Liu, J., Vasileff, A., Jiao, Y., . . . Qiao, S. -Z. (2018). Emerging two-dimensional nanomaterials for electrocatalysis. Chemical Reviews, 118(13), 6337-6408. DOI Scopus1796 WoS1342 Europe PMC229
2018	Liu, J., Zheng, Y., Jiao, Y., Wang, Z., Lu, Z., Vasileff, A., & Qiao, S. (2018). NiO as a bifunctional promoter for RuO₂ toward superior overall water splitting. Small, 14(16), 1704073-1-1704073-10. DOI Scopus278 WoS191 Europe PMC43
2018	Vasileff, A., Xu, C., Jiao, Y., Zheng, Y., & Qiao, S. (2018). Surface and interface engineering in copper-based bimetallic materials for selective CO₂ electroreduction. Chem, 4(8), 1809-1831. DOI Scopus746 WoS483
2018	Wang, X., Zhu, Y., Vasileff, A., Jiao, Y., Chen, S., Song, L., . . . Qiao, S. -Z. (2018). Strain effect in bimetallic electrocatalysts in the hydrogen evolution reaction. ACS Energy Letters, 3(5), 1198-1204. DOI Scopus214 WoS160
2018	Zhao, Y., Jin, B., Zheng, Y., Jin, H., Jiao, Y., & Qiao, S. (2018). Charge state manipulation of cobalt selenide catalyst for overall seawater electrolysis. Advanced Energy Materials, 8(29), 1801926-1-1801926-9. DOI Scopus327 WoS217
2018	Zheng, Y., Jiao, Y., Qiao, S., & Vasileff, A. (2018). The hydrogen evolution reaction in alkaline solution: from theory, single crystal models, to practical electrocatalysts. Angewandte Chemie, 57(26), 7568-7579. DOI Scopus1207 WoS853 Europe PMC209
2018	Ye, C., Jiao, Y., Jin, H., Slattery, A. D., Davey, K., Wang, H., & Qiao, S. Z. (2018). 2D MoN-VN Heterostructure ToRegulate Polysulfides for Highly Efficient Lithium-Sulfur Batteries. Angewandte Chemie - International Edition, 130(51), 16945-16949. DOI Scopus44
2017	Jiao, Y., Zheng, Y., Chen, P., Jaroniec, M., & Qiao, S. (2017). Molecular scaffolding strategy with synergistic active centers to facilitate electrocatalytic CO₂ reduction to hydrocarbon/alcohol. Journal of the American Chemical Society, 139(49), 18093-18100. DOI Scopus490 WoS396 Europe PMC69
2017	Qu, K., Zheng, Y., Jiao, Y., Zhang, X., Dai, S., & Qiao, S. (2017). Polydopamine-inspired, dual heteroatom-doped carbon nanotubes for highly efficient overall water splitting. Advanced Energy Materials, 7(9), 1602068-1-1602068-8. DOI Scopus344 WoS295
2017	Zheng, Y., Jiao, Y., Zhu, Y., Cai, Q., Vasileff, A., Li, L., . . . Qiao, S. (2017). Molecule-level g-C₃N₄ coordinated transition metals as a new class of electrocatalysts for oxygen electrode reactions. Journal of the American Chemical Society, 139(9), 3336-3339. DOI Scopus1154 WoS940 Europe PMC188
2017	Ling, T., Yan, D. -Y., Wang, H., Jiao, Y., Hu, Z., Zheng, Y., . . . Qiao, S. -Z. (2017). Activating cobalt(II) oxide nanorods for efficient electrocatalysis by strain engineering. Nature communications, 8(1), 1-7. DOI Scopus400 WoS339 Europe PMC78
2016	Zheng, Y., Jiao, Y., Zhu, Y., Li, L. H., Han, Y., Chen, Y., . . . Qiao, S. Z. (2016). High electrocatalytic hydrogen evolution activity of an anomalous ruthenium catalyst. Journal of the American Chemical Society, 138(49), 16174-16181. DOI Scopus960 WoS731 Europe PMC205
2016	Jiao, Y., Zheng, Y., Davey, K., & Qiao, S. (2016). Activity origin and catalyst design principles for electrocatalytic hydrogen evolution on heteroatom-doped graphene. Nature Energy, 1(10), 16130-1-16130-9. DOI Scopus978 WoS844
2016	Gao, G., Jiao, Y., Waclawik, E., & Du, A. (2016). Single atom (Pd/Pt) supported on graphitic carbon nitride as an efficient photocatalyst for visible-light reduction of carbon dioxide. Journal of the American Chemical Society, 138(19), 6292-6297. DOI Scopus1079 WoS883 Europe PMC185
2016	Ling, T., Yan, D., Jiao, Y., Wang, H., Zheng, Y., Zheng, X., . . . Qiao, S. (2016). Engineering surface atomic structure of single-crystal cobalt (II) oxide nanorods for superior electrocatalysis. Nature Communications, 7(1), 1-8. DOI Scopus594 WoS508 Europe PMC115
2015	Jiao, Y., Du, A., Smith, S., Zhu, Z., & Qiao, S. (2015). H₂ purification by functionalized graphdiyne-role of nitrogen doping. Journal of Materials Chemistry A, 3(13), 6767-6771. DOI Scopus70 WoS61
2015	Zheng, Y., Jiao, Y., & Qiao, S. (2015). Engineering of carbon-based electrocatalysts for emerging energy conversion: from fundamentality to functionality. Advanced Materials, 27(36), 5372-5378. DOI Scopus266 WoS230 Europe PMC57
2015	Zheng, Y., Jiao, Y., Jaroniec, M., & Qiao, S. (2015). Advancing the electrochemistry of the hydrogen-evolution reaction through combining experiment and theory. Angewandte Chemie International Edition, 54(1), 52-65. DOI Scopus1792 WoS1458 Europe PMC314
2015	Jiao, Y., Zheng, Y., Jaroniec, M., & Qiao, S. (2015). Design of electrocatalysts for oxygen- and hydrogen-involving energy conversion reactions. Chemical Society Reviews, 44(8), 2060-2086. DOI Scopus4765 WoS3853 Europe PMC796
2014	Zheng, Y., Jiao, Y., Zhu, Y., Li, L., Han, Y., Chen, Y., . . . Qiao, S. (2014). Hydrogen evolution by a metal-free electrocatalyst. Nature Communications, 5(1), 3783-1-3783-8. DOI Scopus2005 WoS1726 Europe PMC422
2014	Zheng, Y., Jiao, Y., Li, L., Xing, T., Chen, Y., Jaroniec, M., & Qiao, S. (2014). Toward design of synergistically active carbon-based catalysts for electrocatalytic hydrogen evolution. ACS Nano, 8(5), 5290-5296. DOI Scopus969 WoS850 Europe PMC213
2014	Jiao, Y., Zheng, Y., Smith, S., Du, A., & Zhu, Z. (2014). Electrocatalytically switchable CO₂ capture: first principle computational exploration of carbon nanotubes with pyridinic nitrogen. ChemSusChem, 7(2), 435-441. DOI Scopus38 WoS67 Europe PMC13
2014	Jiao, Y., Zheng, Y., Jaroniec, M., & Qiao, S. (2014). Origin of the electrocatalytic oxygen reduction activity of graphene-based catalysts: a roadmap to achieve the best performance. American Chemical Society Journal, 136(11), 4394-4403. DOI Scopus1017 WoS859 Europe PMC216
2013	Zheng, Y., Jiao, Y., Ge, L., Jaroniec, M., & Qiao, S. (2013). Two-step boron and nitrogen doping in graphene for enhanced synergistic catalysis. Angewandte Chemie-International Edition, 52(11), 3110-3116. DOI Scopus943 WoS828 Europe PMC218
2013	Jiao, Y., Du, A., Hankel, M., & Smith, S. (2013). Modelling carbon membranes for gas and isotope separation. Physical Chemistry Chemical Physics, 15(14), 4832-4843. DOI Scopus99 WoS88 Europe PMC20
2012	Zheng, Y., Jiao, Y., Jaroniec, M., Jin, Y., & Qiao, S. (2012). Nanostructured metal-free electrochemical catalysts for highly efficient oxygen reduction. Small, 8(23), 3550-3566. DOI Scopus585 WoS535 Europe PMC130
2012	Liang, J., Jiao, Y., Jaroniec, M., & Qiao, S. (2012). Sulfur and nitrogen dual-doped mesoporous graphene electrocatalyst for oxygen reduction with synergistically enhanced performance. Angewandte Chemie-International Edition, 51(46), 11496-11500. DOI Scopus2037 WoS1825 Europe PMC346
2012	Du, A., Sanvito, S., Li, Z., Wang, D., Jiao, Y., Liao, T., . . . Smith, S. (2012). Hybrid graphene and graphitic carbon nitride nanocomposite: gap opening, electron-hole puddle, interfacial charge transfer, and enhanced visible light response. Journal of the American Chemical Society, 134(9), 4393-4397. DOI Scopus580 WoS538 Europe PMC124
2012	Hankel, M., Jiao, Y., Du, A., Gray, S., & Smith, S. (2012). Asymmetrically decorated, doped porous graphene as an effective membrane for hydrogen isotope separation. The Journal of Physical Chemistry Part C: Nanomaterials and Interfaces, 116(11), 6672-6676. DOI Scopus87 WoS77
2011	Zheng, Y., Jiao, Y., Chen, J., Liu, J., Liang, J., Du, A., . . . Qiao, S. (2011). Nanoporous graphitic-C₃N₄@carbon metal-free electrocatalysts for highly efficient oxygen reduction. Journal of the American Chemical Society, 133(50), 20116-20119. DOI Scopus997 WoS879 Europe PMC247
2011	Jiao, Y., Du, A., Hankel, M., Zhu, Z., Rudolph, V., & Smith, S. (2011). Graphdiyne: a versatile nanomaterial for electronics and hydrogen purification. Chemical Communications, 47(43), 11843-11845. DOI Scopus360 WoS314 Europe PMC71
2010	Jiao, Y., Du, A., Zhu, Z., Rudolph, V., & Smith, S. (2010). A density functional theory study of CO<inf>2</inf> and N<inf>2</inf> adsorption on aluminium nitride single walled nanotubes. Journal of Materials Chemistry, 20(46), 10426-10430. DOI Scopus69 WoS63
2010	Jiao, Y., Du, A., Zhu, Z., Rudolph, V., & Smith, S. (2010). Adsorption of carbon dioxide and nitrogen on single-layer aluminum nitride nanostructures studied by density functional theory. Journal of Physical Chemistry C, 114(17), 7846-7849. DOI Scopus54 WoS46
2007	Yan, J., Jiao, Y., Jiao, F., Stuart, J., Donahue, L. R., Beamer, W. G., . . . Gu, W. (2007). Effects of carbonic anhydrase VIII deficiency on cerebellar gene expression profiles in the <i>wdl</i> mouse. NEUROSCIENCE LETTERS, 413(3), 196-201. DOI WoS12
-	Jiao, Y., & Zheng, Y. (n.d.). Electrolyzer engineering through in situ catalyst regeneration. Nature Chemical Engineering, 2(3), 163-164. DOI
-	Gong, J., Shallcross, D. C., Jiao, Y., Venkatasubramanian, V., Davis, R., & Arges, C. G. (n.d.). Rethinking chemical engineering education. Nature Chemical Engineering, 1(2), 127-133. DOI

Book Chapters

Year	Citation
2013	Jiao, Y., Hankel, M., Du, A., & Smith, S. (2013). Porous Graphene and Nanomeshes. In D. -E. Jiang, & Z. Chen (Eds.), Graphene Chemistry: Theoretical Perspectives (pp. 129-151). Chichester: Wiley. DOI Scopus3

Conference Papers

Year	Citation
2022	Yee, K., Kankanamalage, U., Ghayesh, M., & Jiao, Y. (2022). Vibration analysis of elastically supported graphene strengthened beams. In The First International Conference on Mechanical System Dynamics Vol. 2022 (pp. 1-6). Online: IEEE. DOI
2021	Yee, K., Ghayesh, M., & Jiao, Y. (2021). Vibrations of axially functionally graded graphene-nanoplatelets- reinforced Euler-Bernoulli beams. In ACAM10: 10th Australasian Congress on Applied Mechanics Vol. 1 (pp. 442-451). Online: Engineers Australia. DOI
2011	Jiao, Y., Du, A., Zhu, Z., Rudolph, V., Lu, G., & Smith, S. (2011). A density functional theory study on CO<inf>2</inf> capture and activation by graphene-like boron nitride with boron vacancy. In Catalysis Today Vol. 175 (pp. 271-275). Beijing, PEOPLES R CHINA: ELSEVIER SCIENCE BV. DOI Scopus86 WoS77

Conference Items

Year	Citation
2014	Qiao, S. Z., Zheng, Y., & Jiao, Y. (2014). Co-doped graphene metal-free electrocatalysts for key energy conversion processes. Poster session presented at the meeting of ABSTRACTS OF PAPERS OF THE AMERICAN CHEMICAL SOCIETY. CA, San Francisco: AMER CHEMICAL SOC.

DP250104259. CO2 to Propylene through Electrocatalyst and Electrolyte Engineering. ARC - Discovery Projects. Lead CI. $618,299.00. 2025 - 2028.
IC240100012. ARC Training Centre in Current and Emergent Quantum Technologies (CE-QuTech). $4,869,032.00. 2025 - 2029.
CE230100032. ARC Centre of Excellence for Carbon Science and Innovation. Program 2 Leader. $35,000,000. 2023-2030.
LE230100113. Cryogenic Near-Field Imaging and Spectroscopy Facility at the 10-nm-Scale. ARC Linkage Infrastructure, Equipment and Facilities. CI. $909,754. 2023.
FT190100636. Develop Catalyst Materials for Future Fuels by Operando Computation. ARC Future Fellowship. Sole CI. $767,158. 2020-2023
DP190103472. Design of Electrocatalysts for Hydrogen-Free Ammonia Production under Ambient Conditions. ARC - Discovery Projects. Lead CI. $350,000. 2019 - 2023
FND000164. Density Functional Theory aided material design for solar-fuel generation, University of Adelaide - Research Fellowships Scheme. Sole CI. $120,000.00. 2018

ENG 1003 Programming (MATLAB/Excel)
CHEM ENG 7102/MAT ENG 7102 Computation for Materials Engineering
CHEM ENG 1011 Introduction to Process Modelling
CHEM ENG 3026 Unit Operation

Current Higher Degree by Research Supervision (University of Adelaide)

Date	Role	Research Topic	Program	Degree Type	Student Load	Student Name
2025	Principal Supervisor	Data-driven development of transition metal/carbon nanocomposite electrocatalysts for C3 chemical production	Doctor of Philosophy	Doctorate	Full Time	Zhuo Ma
2024	Principal Supervisor	First-principles Simulations on Catalysts and Electrolytes for Electrochemical Mechanism	Doctor of Philosophy	Doctorate	Full Time	Ms Peiqi Qiu
2024	Co-Supervisor	Regulation on photocatalyst for key catalytic Reaction	Doctor of Philosophy	Doctorate	Full Time	Mr Jaenudin Ridwan
2024	Principal Supervisor	Al-Driven Simulation of Catalytic Reactions at Electrode Interface	Doctor of Philosophy	Doctorate	Full Time	Mr Yanzhang Zhao
2024	Principal Supervisor	Data-driven Machine-learning Assisted Design of Electrocatalysts for Green C2 Chemical Production	Doctor of Philosophy	Doctorate	Full Time	Mr Zhen Tan
2022	Principal Supervisor	Electrode/electrolyte Interphase Engineerings for Advanced Aqueous Zinc-ion Batteries	Doctor of Philosophy	Doctorate	Full Time	Mr Yilong Zhu
2022	Co-Supervisor	Synthesizing highly selective and tuneable wide-bandgap ternary Aluminium-Gallium Oxide (AlxGa1-x)2O3 using Plasma Enhanced Atomic Layer Deposition (PEALD) with Trimethylaluminum (TMA,AI(CH3)3) and Trimethylgallium (TMG,Ga(CH3)3).	Doctor of Philosophy	Doctorate	Part Time	Yong Cheow Gary Lim
2021	Co-Supervisor	iPhD Project: Upscaling Atomic Layer Etching from the Bench to Full Fabrication	Doctor of Philosophy	Doctorate	Full Time	Miss Xiting Zhou
2021	Principal Supervisor	Design Electrocatalyst Materials for Synthetic Fuel/Chemical Production by Molecular Modelling	Doctor of Philosophy	Doctorate	Full Time	Mr Yiran Jiao
2021	Principal Supervisor	Theoretical Studies and Computational approaches to Electrochemical Nitrogen Reduction Reaction	Doctor of Philosophy	Doctorate	Full Time	Miss Lin Jiang

Past Higher Degree by Research Supervision (University of Adelaide)

Date	Role	Research Topic	Program	Degree Type	Student Load	Student Name
2021 - 2024	Principal Supervisor	Insights for Electrocatalytic Coupling of Small Molecules by Density Functional Theory (DFT) Simulation	Doctor of Philosophy	Doctorate	Full Time	Dr Ling Chen
2019 - 2021	Principal Supervisor	Design of g-C3N4 Based Electrocatalysts for CO2 Reduction to Ethylene by Molecular Modelling	Master of Philosophy	Master	Full Time	Miss Sijia Fu
2018 - 2021	Co-Supervisor	Hepatitis B core (HBc) virus like particle (VLP) as a platform for innovation of chimeric adjuvant-free VLP vaccines targeting oncoviruses	Doctor of Philosophy	Doctorate	Full Time	Mr Bingyang Zhang
2017 - 2021	Co-Supervisor	Computational Design of Catalysts for Electrochemical Hydrogen Evolution and Nitrogen Reduction	Doctor of Philosophy	Doctorate	Full Time	Mr Xin Liu
2017 - 2021	Co-Supervisor	Directing Selectivity of Carbon Dioxide Reduction Reaction via Heteroatom Doping	Doctor of Philosophy	Doctorate	Full Time	Dr Xing Zhi
2017 - 2022	Principal Supervisor	Development of Functional Iron-based Nanomaterials for Biomedical and Energy Conversion Applications	Doctor of Philosophy	Doctorate	Part Time	Mr Yechuan Zhang
2017 - 2018	Co-Supervisor	Advanced Nano-Array Catalysts for Electrochemical Energy Conversion Reactions	Doctor of Philosophy	Doctorate	Full Time	Mr Jinlong Liu
2017 - 2019	Co-Supervisor	Synthesis of Advanced Electrocatalysts via the Ampoule Method for Water Electrolysis	Doctor of Philosophy	Doctorate	Full Time	Mr Yongqiang Zhao

Position: Head, School of Chemical Engineering
Phone: 83130753
Email: yan.jiao@adelaide.edu.au
Campus: North Terrace
Building: Engineering North, floor First Floor
Room: N116
Org Unit: Materials Engineering

Professor Yan Jiao

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