JADE Lab. - Publications

Publications

On-going

S. Tan, W. Alnoush, M.-N. Zhu, X. Yang, S. Angizi, N. Hamada, K. Abousalem, J. Park, M. Fefer, Y. Terazono, D. Higgins*, “Truly Combining the advantages of hierarchically porous structure and high loading Ni-Nx active sites for CO2 electrolysis”, Submitted

J. Park, E, Liu, E. Y. Kirici, S. Angizi, U. N. Shrivastava, M. K. Mandal, and D. Higgins*, “The Influence of Key Components on Three-electrode system: Guidelines for Reliable Oxygen Evolution Reaction Studies” In Prep

2026

[20] S. Bae‡, J. Park‡ (‡co-first authors), S. Lee, C. Lee, V. B. Kathiriyam. L. Rademacher, M. Najabaee, K. A. Friedrich, J. Lee*, J. W. Kim*, “A Copper Phosphide Electrocatalyst Enables High-Areal-Capacity and Long-Term Stability in Lithium-Sulfur Pouch Cells”, Dalton Transactions, (2026)

2025

[19] E. Y. Kirici, J. Park, S. Angizi, M. Fefer, Y. Terazono, and D. Higgins*, “PtxCu100–x/C Bimetallic Catalyst toward Glycerol Electrooxidation in Alkaline Electrolyte: Tuning the Product Selectivity to Glyceric Acid”, J. Phys. Chem. C. (2025), 129, 50

[18] S. Angizi, M. Nankali, A. Foroozan, J. Park, E. Y. Kirici, N. Noor, M. Fefer, Y. Terazono, D. Higgins*, “3D Bimetallic Platinum‐Nickel Electrodes for Electro‐Oxidation of Glycerol at Ambient Conditions”, Adv. Func. Mat., (2025), 35, 14, 2420622

2024

[17] J. Park, and D. Higgins*, “Quantum Confinement for Stable Nickel Catalyst in Hydrogen Oxidation”, Chem Catalysis, (2024), 4, 10, 101150

[16] J. Park, E. Liu, S. Angizi, A. Abdellah, E. Y. Kirici, and D. Higgins*, “Formation of core-shell Ir@TiO2 nanoparticles through hydrogen treatment as acidic oxygen evolution reaction catalysts”, Adv. Func. Mat., (2024), 2408848

[15] J. Park, J. Lee*. “Electrochemical Energy Conversion and Storage Processes with Artificial Intelligence”, Trends, Chem. (2024), 6, 320-313

[14] S. Bae, J. Park, S. Bong, JS. Park, B. Jeong*, and J. Lee*. “Pore surface engineering of FeNC for outstanding power density of alkaline hydrazine fuel cells”, Chem. Eng. J. (2024), 479, 147522

2023

[13] J. Park, J. Lee*, “Optimizing Various Operational Conditions of Hydrazine Single Cell for a Short Stack System”, Adv. Energy&Sustainability Res. (2023), 4, 2200188

[12] DT Nde, J. Park, SH Lee, J Lee, HJ Lee*, “Ultrawide Hydrazine Concentration Monitoring Sensor Comprising Ir–Ni Nanoparticles Decorated with Multi‐Walled Carbon Nanotubes in On‐Site Alkaline Fuel Cell Operation”, ChemSusChem, (2023), e202201608

2022

[11] J. Park, J. Lee*. “Gradient Boosting Algorithm for Current-Voltage Prediction of Fuel Cells”, Electrochim. Acta, (2022), 432, 141148

[10] J. Park, S. Kang, J. Lee*, “[Backcover] Non-noble electrocatalysts discovered by scaling relations of Gibbs-free energies of key oxygen adsorbates in water oxidation”, J. Mat. Chem. A, (2022), 10, 15975

[9] G. Seo, J. Ha, M. Kim, J. Park, J. Lee, E. Park, et al & J. Lee*. “Rapid determination of lithium-ion battery degradation: High C-rate LAM and calculated limiting LLI”, J. Energy Chem., (2022), 67, 663-671

[8] S. Bae‡, J. Park‡ (‡co-first authors), Y. Hwang, JS Park, J. Lee, B. Jeong*. “Steam activation of Fe-NC catalyst for advanced power performance of alkaline hydrazine fuel cells”, J. Energy Chem., (2022), 64, 276-285

[7] AT. Angeles‡, J. Park‡ (‡co-first authors), K. Ham, S. Bong, J. Lee*. “High-performance capacitive deionization electrodes through regulated electrodeposition of manganese oxide and nickel-manganese oxide/hydroxide onto activated carbon”, Sep. Purif. Technol., (2022), 280, 119873

~ 2021

[6] J. Park, S. Bae, JS Park, S. Bong, J. Lee*. “Crusty-Structured Cu@ NiCo Nanoparticles as Anode Catalysts in Alkaline Fuel Cells”, ACS Applied Nano Materials, (2021), 4, 8, 8145-8153

[5] S. Hong, S. Chung, J. Park, JP Hwang, CH Lee, S. Uhm, S. Bong, J. Lee* “Contribution of Interstitial Boron in a Boron-Incorporated Palladium Catalyst Toward Formate Oxidation in an Alkaline Direct Formate Fuel Cell”, ACS Catalysis, (2021), 11, 8, 4722-4729

[4] J. Park, H. Yoo, and J. Choi*, “3D ant-nest network of α-Fe2O3 on stainless steel for all-in-one anode for Li-ion battery”, J. Power Sources, (2019), 431, 25-30

[3] J. Park‡, S. Kim‡ (‡co-first authors), G. Lee, and J. Choi*, “RGO-Coated TiO2 Microcones for High-Rate Lithium-Ion Batteries”, ACS Omega, (2018), 3, 10205-10210

[2] J. Park and J. Choi*, “Formation of well dispersed TiO2 microcones; the 20% surface occupation” Appl. Sur. Sci., (2018). 448, 212-218

[1] J. Park, G. Lee, and J. Choi*, “Key Anodization Factors for Determining the Formation of TiO2 Microcones vs Nanotubes”, J. Electrochem. Soc., (2017), 164, D640-D644

Patents

[3] J. Park, E. Liu, and D. Higgins, “A CORE-SHELL CATALYST, METHODS OF MAKING AND USES THEREOF” US-Patent, Prep

[2] J. Choi, J. Park, and S. Kim, “Anode materials comprising RGO-coated TiO2 microcones for lithium ion batteries” Korea - Application No. 10-2018-0063564

[1] J. Choi and J. Park, “Lithium ion battery iron oxide electrode having a three-dimensional ant-nest network structure” Korea - Registration No. 10-2019-0012911

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