Publications

2023

C. T. -C. Wan, Rodby, K. E., Perry, M. L., Chiang, Y. -M., and Brushett, F. R., “Hydrogen evolution mitigation in iron-chromium redox flow batteries via electrochemical purification of the electrolyte”, Journal of Power Sources, vol. 554. 2023.
G. Bradford et al., “Chemistry-Informed Machine Learning for Polymer Electrolyte Discovery”, ACS Central Science. 2023.

2022

P. C. Tsai et al., “Double-Paddle-Wheel Enhanced Sodium Ion Conduction in an Antiperovskite Solid Electrolyte”, Advanced Energy Materials, vol. 28. 2022.
C. D. Fincher et al., “Controlling dendrite propagation in solid-state batteries with engineered stress”, Joule, vol. 6. 2022.
R. R. Jacquemond et al., “Microstructural engineering of high-power redox flow battery electrodes via non-solvent induced phase separation”, Cell Reports Physical Science, vol. 3, no. 7. 2022.
M. S. Pan et al., “Electrochemical Stability and Reversibility of Aqueous Polysulfide Electrodes Cycled Beyond the Solubility Limit”, Journal of The Electrochemical Society, vol. 169, no. 6. 2022.
W. H. Woodford, Burger, S., Ferrara, M., and Chiang, Y. -M., “The iron-energy nexus: A new paradigm for long-duration storage at scale and clean steelmaking”, One Earth, vol. 5, no. 3. 2022.
K. Kim et al., “Exploring the Synthesis of Alkali-metal Anti-perovskites”, Chemistry of Materials, vol. 34, no. 3. 2022.
V. Viswanathan et al., “The Challenges and Opportunities of Battery Powered Flight”, Nature, no. 601. 2022.
J. Peng, Giordano, L., Davenport, T., and Shao-Horn, Y., “Stability Design Principles of Manganese-Based Oxides in Acid”, Chemistry of Materials, vol. 34. pp. 7774–7787, 2022.
P. Sebastián-Pascual, Shao-Horn, Y., and Escudero-Escribano, M., “Toward understanding the role of the electric double layer structure and electrolyte effects on well-defined interfaces for electrocatalysis”, Current Opinion in Electrochemistry, vol. 32. 2022.
T. -H. Shen, Spillane, L., Peng, J., Shao-Horn, Y., and Tileli, V., “Switchable wetting of oxygen-evolving oxide catalysts”, Nature Catalysis, vol. 4. 2022.
L. Giordano, Akkiraju, K., Jacobs, R., Vivona, D., Morgan, D., and Shao-Horn, Y., “Electronic Structure-Based Descriptors for Oxide Properties and Functions”, Accounts of Chemical Research, vol. 55. pp. 298–308, 2022.
N. Vonrüti, Rao, R. R., Giordano, L., Shao-Horn, Y., and Aschauer, U., “Implications of Nonelectrochemical Reaction Steps on the Oxygen Evolution Reaction: Oxygen Dimer Formation on Perovskite Oxide and Oxynitride Surfaces”, ACS Catalysis, vol. 12. pp. 1433–1442, 2022.
J. Peng et al., “Design principles for transition metal nitride stability and ammonia generation in acid”, Journal of The Electrochemical Society, vol. 7. pp. 150-167, 2022.
T. M. Narayanan, He, G., Gencer, E., Shao-Horn, Y., and Mallapragada, D., “Role of Liquid Hydrogen Carriers in Deeply Decarbonized Energy Systems”, ACS Sustainable Chemistry & Engineering , vol. 10. pp. 10768–10780, 2022.
S. Yuan et al., “Tuning the Catalytic Activity of Fe-Phthalocyanine-Based Catalysts for the Oxygen Reduction Reaction by Ligand Functionalization”, ACS Catalysis, vol. 12. pp. 7278–7287, 2022.
Y. G. Zhu, Leverick, G., Accogli, A., Gordiz, K., Zhang, Y., and Shao-Horn, Y., “A high-rate and high-efficiency molten-salt sodium–oxygen battery”, Energy & Environmental Science, vol. 15. pp. 4636-4646 , 2022.
G. Leverick, Zhu, Y. G., Lohmar, S., Bardé, F., Cotte, S., and Shao-Horn, Y., “Six-Electron Reduction for LiIO3 to LiOH in Aprotic Solvents and Implications for Li–O2 Batteries”, Journal of Physcial Chemistry C, vol. 126. pp. 8256–8267, 2022.
S. B. Scott et al., “The low overpotential regime of acidic water oxidation part I: The importance of O2 detection”, Energy & Environmental Science, vol. 15. pp. 1977-1987 , 2022.
S. B. Scott et al., “The low overpotential regime of acidic water oxidation part II: Trends in metal and oxygen stability numbers”, Energy & Environmental Science, vol. 15. pp. 1988-2001 , 2022.
J. R. Lunger, Lutz, N., Peng, J., Bajdich, M., and Shao-Horn, Y., “Cation-Dependent Multielectron Kinetics of Metal Oxide Splitting”, Chemistry of Materials , vol. 34. pp. 3872–3881, 2022.
G. Leverick et al., “Tunable Redox Mediators for Li–O2 Batteries Based on Interhalide Complexes”, ACS Applied Materials Interfaces, vol. 14. pp. 6689–6701, 2022.
J. J. Giner-Sanz, Leverick, G., Giordano, L., Pérez-Herranz, V., and Shao-Horn, Y., “Alkali Metal Salt Interference on the Salicylate Method for Quantifying Ammonia from Nitrogen Reduction”, ECS Advances , vol. 1. 2022.
S. Gong et al., “Calibrating DFT Formation Enthalpy Calculations by Multifidelity Machine Learning”, Journal of the American Chemical Society Au, vol. 2. 2022.
S. I. Etkind et al., “Thianthrene-Based Bipolar Redox-Active Molecules Toward Symmetric All-Organic Batteries”, ACS Sustainable Chemistry & Engineering, vol. 10. pp. 11739–11750, 2022.
Y. G. Zhu et al., “Nitrate-mediated four-electron oxygen reduction on metal oxides for lithium-oxygen batteries”, Joule, vol. 6. pp. 1887-1903, 2022.
T. Xie et al., “Accelerating amorphous polymer electrolyte screening by learning to reduce errors in molecular dynamics simulated properties”, Nature Communications , vol. 13. 2022.

2021

Z. Ke et al., “Thermally Stable and Solvent-Resistant Conductive Polymer Composites with Cross-Linked Siloxane Network”, ACS APPLIED POLYMER MATERIALS, vol. 3. pp. 1537-1543, 2021.
J. Ryter, Fu, X., Bhuwalka, K., Roth, R., and Olivetti, E. A., “Emission impacts of China’s solid waste import ban and COVID-19 in the copper supply chain”, Nature Communications, vol. 12. p. 3753, 2021.
M. Huang et al., “Voltage control of ferrimagnetic order and voltage-assisted writing of ferrimagnetic spin textures”, Nature Nanotechnology. 2021.
C. Schissel et al., “Deep learning to design nuclear-targeting abiotic miniproteins”, Nature Chemistry. 2021.
C. T. C. Wan, Greco, K. V., Alazmi, A., Darling, R. M., Chiang, Y. -M., and Brushett, F. R., “Methods — A potential-dependent Thiele modulus to quantify the effectiveness of porous electrocatalysts”, Electrochemical Society, vol. 178, no. 12. 2021.
D. J. Siegel, Nazar, L., Chiang, Y. -M., Fang, C., and Balsara, N. P., “Establishing a Unified Framework for Ion Solvation and Transport in Liquid and Solid Electrolytes”, Trends in Chemistry, vol. 3, no. 10. 2021.
W. D. Gilstrap, Meanwell, J. L., Paris, E. H., Bravo, R. L., and Day, P. M., “Post-Depositional Alteration of Calcium Carbonate Phases in Archaeological Ceramics: Depletion and Redistribution Effects”, Minerals, vol. 11, no. 7. 2021.
K. M. Tenny, Braatz, R. D., Chiang, Y. -M., and Brushett, F. R., “Leveraging Neural Networks and Genetic Algorithms to Refine Electrode Properties in Redox Flow Batteries”, Electrochemical Society, vol. 168, no. 5. 2021.
C. T. C. Wan, Jacquemond, R. R., Chiang, Y. -M., Nijmeijer, K., Brushett, F. R., and Forner-Cuenca, A., “Non-Solvent Induced Phase Separation Enables Designer Redox Flow Battery Electrodes”, Advanced Materials, vol. 33, no. 16. 2021.
R. J. -Y. Park et al., “Semi-Solid Alkali Metal Electrodes Enabling High Critical Current Densities in Solid Electrolyte Batteries”, Nature Energy, vol. 6. 2021.
S. Yadav et al., “Fabrication of high surface area ribbon electrodes for use in redox flow batteries via coaxial electrospinning”, J. Energy Storage, vol. 33. 2021.
D. Fraggedakis et al., “Theory of coupled ion-electron transfer kinetics”, Electrochemica Acta, vol. 367. 2021.
B. Khurana et al., “Magnetism and spin transport in platinum/scandium-substituted terbium iron garnet heterostructures”, Physical Review Materials, vol. 5, no. 8. American Physical Society (APS), 2021.
R. J. Macfarlane, “From Nano to Macro: Thinking Bigger in Nanoparticle Assembly”, Nano Letters. American Chemical Society (ACS), 2021.
H. Huang, Cao, Z., Gadelrab, K. R., Mailoa, J. P., and Alexander-Katz, A., “Controlled Water Uptake in Fuel Cell Membranes with Dual Chemistry Confinement”, Chemistry of Materials. American Chemical Society (ACS), 2021.
J. J. Bauer et al., “Magnetic proximity effect in magnetic-insulator/heavy-metal heterostructures across the compensation temperature”, Physical Review B, vol. 104, no. 9. American Physical Society (APS), 2021.
P. Li et al., “Reusable Polyacrylonitrile‐Sulfur Extractor of Heavy Metal Ions from Wastewater”, Advanced Functional Materials. Wiley, p. 2105845, 2021.
G. A. Knappe, Wamhoff, E. -C., Read, B. J., Irvine, D. J., and Bathe, M., “In Situ Covalent Functionalization of DNA Origami Virus-like Particles”, ACS Nano. American Chemical Society (ACS), 2021.
T. Wang et al., “Enhancing oxygen reduction electrocatalysis by tuning interfacial hydrogen bonds”, Nature Catalysis. Springer Science and Business Media LLC, 2021.
A. Gumyusenge, Melianas, A., Keene, S. T., and Salleo, A., “Materials Strategies for Organic Neuromorphic Devices”, Annual Review of Materials Research, vol. 51, no. 1. Annual Reviews, pp. 47-71, 2021.
T. Su, Ning, S., Cho, E., and Ross, C. A., “Magnetism and site occupancy in epitaxial Y-rich yttrium iron garnet films”, Physical Review Materials, vol. 5, no. 9. American Physical Society (APS), 2021.
J. -Y. Chung et al., “Light-Emitting V-Pits: An Alternative Approach toward Luminescent Indium-Rich InGaN Quantum Dots”, ACS Photonics. American Chemical Society (ACS), 2021.