Tianbiao Leo Liu, Ph.D.

2005-2009 Department of Chemistry Texas A & M University, College Station, TX, United States 
 2009-2015 Energy and Environment Directorate Pacific Northwest National Laboratory, Richland, WA, United States 
 2015- Department of Chemistry and Biochemistry Utah State University, Logan, UT, United States 
Batteries, Catalysis, Electrochemistry, Synthesis, Renewables
"Tianbiao Liu, Leo Liu, and Tianbiao Leo Liu"

Dr. Tianbiao Leo Liu received his PhD from Texas A&M University in 2009, served as staff scientist at Pacific Northwest National Laboratory from 2013 to 2015, and currently is an associate professor of chemistry and materials science at Utah State University. His research is broadly spread on energy and green chemistry including electrochemical energy storage, electrocatalysis, and environmentally benign chemical transformations. Dr. Liu’s research has been recognized by several academic awards and honors, including 2015 ACS Catalysis Lectureship, 2017-2019 RCSA Scialog Fellow on Advanced Energy Storage, 2020 RCSA Scialog Fellow on Negative Emission Sciences, and 2017 Utah Energy Triangle Faculty Award, 2018 Chemical Communications Emerging Investigator, and 2019 NSF Career Award. Please visit our website for detail, www.tianbiaoliu.org.

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Zhao D, Zhang L, Zuo S, et al. (2023) Developing Superior Hydrophobic 3D Hierarchical Electrocatalysts Embedding Abundant Catalytic Species for High Power Density Zn-Air Battery. Small (Weinheim An Der Bergstrasse, Germany). e2206067
Luo J, Hu B, Hu M, et al. (2022) An Energy Dense, Powerful, Robust Bipolar Zinc-Ferrocene Redox Flow Battery. Angewandte Chemie (International Ed. in English)
Liao Q, Liu T, Johnson SI, et al. (2019) Evaluation of attractive interactions in the second coordination sphere of iron complexes containing pendant amines. Dalton Transactions (Cambridge, England : 2003)
Luo J, Bi Y, Zhang L, et al. (2019) A Stable, Non-corrosive Perfluorinated Pinacolatoborate Mg Electrolyte for Rechargeable Mg Batteries. Angewandte Chemie (International Ed. in English)
Luo J, Hu B, Debruler C, et al. (2017) A π-Conjugation Extended Viologen as a Two-Electron Storage Anolyte for Total Organic Aqueous Redox Flow Batteries. Angewandte Chemie (International Ed. in English)
Liu T, Wei X, Nie Z, et al. (2016) A Total Organic Aqueous Redox Flow Battery Employing a Low Cost and Sustainable Methyl Viologen Anolyte and 4-HO-TEMPO Catholyte Advanced Energy Materials. 6
Liu C, Liu T, Hall MB. (2015) Influence of the Density Functional and Basis Set on the Relative Stabilities of Oxygenated Isomers of Diiron Models for the Active Site of [FeFe]-Hydrogenase. Journal of Chemical Theory and Computation. 11: 205-14
Wei X, Xu W, Huang J, et al. (2015) Radical Compatibility with Nonaqueous Electrolytes and Its Impact on an All-Organic Redox Flow Battery. Angewandte Chemie (International Ed. in English). 54: 8684-7
Liu T, Liao Q, O'Hagan M, et al. (2015) Iron Complexes Bearing Diphosphine Ligands with Positioned Pendant Amines as Electrocatalysts for the Oxidation of H2 Organometallics. 34: 2747-2764
Wei X, Xu W, Vijayakumar M, et al. (2014) TEMPO-based catholyte for high-energy density nonaqueous redox flow batteries. Advanced Materials (Deerfield Beach, Fla.). 26: 7649-53
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