Assoc. Prof. Nguyen Van Quynh

Qualifications 

• Bachelor, Hanoi University of Science and Technology
• Master, Hanoi University of Science and Technology
• PhD, University of Paris Diderot

Teaching interests

Bachelor

• Electrochemistry (B2)
• Material Characterization (B3)
• Microfabrication (B3)
• Practical in physics and electronics (B2 & B3)

Master

• MEMS and NEMS (Master 2)
• Advanced Electrochemistry (Master1)
• Experimental units (Electrochemistry + AFM)

PhD

• Modern Trends in Nanoelectrochemistry

Research interests 

His research interests are focusing on surface modification and characterization of the various electrode surfaces by electrochemistry. The expected results aim to contribute to the investigation and fabrication of bio-electrochemical sensors. The current research interests are also merging with other scientific issues (eg. Plasmon-enhanced thermal therapy, plasmonic-electrochemistry; hybrid organic/inorganic materials, Microfluidic and MEMS devices…)

Selected publications 

1. Phong, L.; Dang, N.; Dang, N.; Nguyen, V.-Q.; Manh, D.; Nam, P.; Nguyen, L.; Phong, P., Structural, optical and conductivity properties in tetragonal BaTi 1− x Co x O 3 (0≤ x≤ 0.1). RSC Advances 2022, 12 (25), 16119-16130.
2. Tung, D. T.; Dung, H. T.; Dung, N. T.; Hong, P. N.; Nguyet, H. M.; Van-Quynh, N.; Van Chuc, N.; Trung, V. Q.; Minh, P. N., Freeze gelation 3D printing of rGO-CuCo2S4 nanocomposite for high-performance supercapacitor electrodes. Electrochimica Acta 2021, 392, 138992.
3. Nguyen, L.-L.; Le, Q.-H.; Pham, V.-N.; Bastide, M.; Gam-Derouich, S.; Nguyen, V.-Q.; Lacroix, J.-C., Confinement Effect of Plasmon for the Fabrication of Interconnected AuNPs through the Reduction of Diazonium Salts. Nanomaterials 2021, 11 (8), 1957.
4. Van Quynh, N.; Minh, N. B.; Thanh, D. T. M.; Lam, N. L.; Anh, N. T., Electrochemical deposition of gold nanoparticles‐based plasmonic catalyst for glucose oxidation. Vietnam Journal of Chemistry 2020, 58 (6), 785-791.
5. Nguyen, V.-Q.; Schaming, D.; Martin, P.; Lacroix, J.-C., Nanostructured Mixed Layers of Organic Materials Obtained by Nanosphere Lithography and Electrochemical Reduction of Aryldiazonium Salts. Langmuir 2019, 35 (47), 15071-15077.
6. Nguyen, V.-Q.; Nguyen, B.-M.; Lacroix, J.-C., Multiscale organization of a size gradient of gold nanoparticles in a honeycomb structure network. Electrochem. Commun. 2019, 102, 63-66.
7. Dinh-Hai-Ngan Nguyen, B.-M. N., Tien-Anh Nguyen, Van-Quynh Nguyen, ELABORATION OF A VALLEY-LIKED GOLD NANOPARTICLES (AUNPS) NETWORK MODIFIED ELECTRODE SURFACE TOWARDS FOR IMPROVING THE SENSITIVITY OF ELECTROCHEMICAL SENSOR. Journal of Military Science and Technology 2019, 62, 149-158.
8. Lacroix, J. C.; van Nguyen, Q.; Ai, Y.; van Nguyen, Q.; Martin, P.; Lacaze, P. C., From active plasmonic devices to plasmonic molecular electronics. Polymer International 2018.
9. Nguyen, V.-Q.; Ai, Y.; Martin, P.; Lacroix, J.-C., Plasmon-induced nanolocalized reduction of diazonium salts. ACS omega 2017, 2 (5), 1947-1955.
10. Ai, Y.; Nguyen, V. Q.; Ghilane, J.; Lacaze, P.-C.; Lacroix, J.-C., Plasmon-induced conductance switching of an electroactive conjugated polymer nanojunction. ACS Appl. Mater. Interfaces 2017, 9 (33), 27817-27824.
11. Nguyen, V. Q.; Sun, X.; Lafolet, F.; Audibert, J.-F.; Miomandre, F.; Lemercier, G.; Loiseau, F.; Lacroix, J.-C., Unprecedented self-organized monolayer of a Ru (II) complex by diazonium electroreduction. Journal of the American Chemical Society 2016, 138 (30), 9381-9384.