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” In Prep

E. Y. Kirici, J. Park, S. Angizi, M. Fefer, Y. Terazono, and D. Higgins*, “PtxCu1-x Bimetallic Catalyst Towards Glycerol Electrooxidation in Alkaline Medium and Tuning the Product Selectivity to C3 Products” In Prep

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

2024

[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., (2024), 2420622

[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

Page updated

Google Sites

Report abuse