Ho's CV

Professional Experience:

October 2025 ~ : Researcher in Thermal Fluid Materials Engineering Laboratory, Department of Advanced Science and Engineering, Graduate School of Advanced Science and Engineering, Hiroshima University, Japan

January 2017  – September 2022: Researcher and teaching assistant in the  Faculty of Chemistry, VNUHCM - University of Science

Educational Background:

October 2022 – September 2025: PhD in Chemical Engineering Program, Department of Advanced Science and Engineering, Graduate School of Advanced Science and Engineering, Hiroshima University, Japan

January 2017 – December 2019: Master’s degree in Theoretical and Physical Chemistry, University of Science, Vietnam National University, HCMC, Vietnam

September 2012  – September 2016: Bachelor’s degree in chemistry, University of Science, Vietnam National University, HCMC, Vietnam

Award for the Fall 2025 Student Award.

15. Thi Thanh Nguyen Ho, Tomoyuki Hirano*, Ryosuke Narui, Shota Imaoka, Aoi Takano, Syu Miyasaka, Eishi Tanabe, Eka Lutfi Septiani, Kiet Le Anh Cao, and Takashi Ogi*, Flame Spray Pyrolysis Achieves Size-Tunable Niobium-Doped Tin Oxide Nanoparticles for Improved Catalyst Performance in PEFCs, ACS Applied Energy Materials (IF = 5.5), 8(7) 4640-4647(2025). (Ac2025/03/22, Pb2025/3/31) DOI: https://doi.org/10.1021/acsaem.5c00266

14. Thi Thanh Nguyen Ho, Tomoyuki Hirano*, Aoi Takano, Syu Miyasaka, Eishi Tanabe, Makoto Maeda, Eka Lutfi Septiani, Kiet Le Anh Cao and Takashi Ogi*, Conductive RuO2 Binders Enhance Mechanical Stability of Macroporous Nb-SnO2 Particles as Cathode Catalyst Supports for High-Performance PEFCs, RSC Applied Interfaces (IF=N/A), 2, 795-807(2025). DOI: https://doi.org/10.1039/D4LF00404C

13. Tomoyuki Hirano*, Takama Tsuboi, Thi Thanh Nguyen Ho, Eishi Tanabe, Aoi Takano, Mikihiro Kataoka, Takashi Ogi*, Macroporous Structures of Nb–SnO2 Particle as a Catalyst Support Induce High Porosity and Performance in Polymer Electrolyte Fuel Cell Catalyst Layers, Nano Letters (IF = 9.6), 24(34), 10426–10433 (2024) (Ac2024/08/08, Pb2024/8/14). DOI: 10.1021/acs.nanolett.4c01150

12. Thi Thanh Nguyen Ho, Tomoyuki Hirano*, Ryosuke Narui, Hiroshi Tsutsumi, Miho Kishi, Yusuke Yoshikawa, Kiet Le Anh Cao, Takashi Ogi*, Effect of annealing treatment on nanostructure and electrical conductivity of flame-made Ir−IrO2/TiO2 particles, Advanced Powder Technology (IF = 4.2), 35(8), 104568 (2024). (Ac2024/07/07, Pb2024/07/15). DOI: https://doi.org/10.1016/j.apt.2024.104568

11. Tomoyuki Hirano*, Takama Tsuboi, Thi Thanh Nguyen Ho, Eishi Tanabe, Aoi Takano, Mikihiro Kataoka, and Takashi Ogi*, Porosity Engineering of Pt Loaded Nb-SnO2 Catalyst Layers in Polymer Electrolyte Fuel Cells, ACS Applied Energy Materials (IF = 6.959), 6(24), 12364–12370 (2023) (Ac2023/11/28, Pb2023/12/8). DOI: 10.1021/acsaem.3c02165

10. Thi Thanh Nguyen Ho, Tomoyuki Hirano*, Ryosuke Narui, Hiroshi Tsutsumi, Miho Kishi, Yusuke Yoshikawa, Kiet Le Anh Cao, Takashi Ogi*, Flame-made Ir-IrO2/TiO2 Particles as Anode Catalyst Support for Improved Durability in Polymer Electrolyte Fuel Cells, ACS Applied Energy Materials (IF=6.959), 6(11), 6064-6071 (2023). (Ac2023/5/2, Pb2023/5/15) DOI:10.1021/acsaem.3c00536

9. V. H. Le, L. T. N. Huynh, T. N. Tran, T. T. N. Ho, M. N. Hoang, T. H. Nguyen: Comparative desalination performance of activated carbon from coconut shell waste/carbon nanotubes composite in batch mode and single-pass mode, J. Appl. Electrochem., 51: 1313–1322, 2021.

8. T. T. Nguyen, L. T. N. Huynh, T. N. Pham, T. N. Tran, T. T. N. Ho, T. D. Nguyen, T. T. T. Nguyen, T. K. A. Vo, G. V. Pham, V. H. Le, T. T. Le, T. H. Nguyen, H. Thai, T. L. Le, D. L. Tran: Enhanced capacitive deionization performance of activated carbon derived from coconut shell electrodes with low-content carbon nanotubes–graphene synergistic hybrid additive, Mater. Lett., 292: 129652, 2021.

7. L. T. N. Huynh, T. N. Tran, T. T. N. Ho, X. H. Le, V. H. Le, T. H. Nguyen: Enhanced electrosorption of NaCl and nickel(II) in capacitive deionization by CO2 activation coconut-shell activated carbon, Carbon Lett. 32: 1531–1540, 2022.

6. H. L. Ngo, N. T. Nguyen, T. T. N. Ho, H. V. Pham, T. N. Le, T. N. Tran, L. T. N. Huynh, T. N. Pham, T. T. Nguyen, T. H. Nguyen, V. H. Le, D. L. Tran: The performance of MCDI: the effect of sulfosuccinic acid ratio in the PVA-based cation exchange membrane, Ionics, 28: 4369–4380, 2022.

5. H. L. Ngo, N. T. Nguyen, T. T. N. Ho, H. V. Pham, T. N. Tran, L. T. N. Huynh, T. N. Pham, T. T. Nguyen, T. H. Nguyen, V. H. Le, D. L. Tran: A low-cost and eco-friendly fabrication of an MCDI-utilized PVA/SSA/GA cation exchange membrane, Green Process. Synth., 11 (1): 563-571, 2022

4. C. V. Le, M. T. T. Nguyen, N. T. T. Le, H. K. Le, T. M. Bui, D. H. Ho, V. H. Le, T. T. N. Ho, T. L. C. Pham, L. T. N. Huynh, T. H. Nguyen, T. P. Mai, N. M. Hoang, H. H. Nguyen: Rapidly Forming the Chemical Bond Titania–Carbon in Hybrid Composite TiO2/Reduced Graphene Oxide to Enhance the Efficiency of Dye-Sensitized Solar Cells, Arab. J. Sci. Eng., 47: 387–395, 2022.

3. T. T. N. Ho, M. H. Tran, L. T. N. Huynh, V. H. Le, T. H. Nguyen: Synthesis, investigation of the properties and evaluation the stability of the mix halogen perovskite (Cl, Br, I) and fabrication of perovskite solar cells, J. Nat. Sci., 6(3): 2233-2240, 2022.

2. T. V. T. Nguyen, N. T. Nguyen, V. V. Nguyen, T. Nguyen, H. L. Ngo, L. T. N. Huynh, H. C. Le, T. N. Tran, T. T. N. Ho, T. T. Nguyen, V. H. Le, T. H. Nguyen: Effect of Urea Content on MCDI Performance of Waste-Corn-Stalk-Derived Cellulose Carbon Aerogel. Fibers Polym., 24: 1929–1939, 2023.

1. T. H. Nguyen, V. V. Nguyen, N. T. Nguyen, T. Nguyen, T. V. T. Nguyen, H. L. Ngo, L. T. N. Huynh, T. N. Tran, T. T. N. Ho, T. T. Nguyen, V. H. Le: Preparation, characterization and CDI application of KOH-activated porous waste-corn-stalk-based carbon aerogel, J. Porous Mater., 30: 1183–1193, 2023.