Vasily Artemov

vasily.artemov@epfl.ch +41 21 693 04 02 https://scholar.google.com/citations?user=ajEnvCoAAAAJ&hl=th

EPFL STI IGM LNET
MED 1 2626 (Bâtiment MED)
Station 9
1015 Lausanne

+41 21 693 04 02
Office: BM 2139
EPFL › STI › IGM › LNET

Expertise

Broadband Dielectric and Terahertz Spectroscopy (ðŸ“¡)
Fuel cells, Batteries, Supercapacitors (ðŸ”‹)
Electrodynamics of water and ice (ðŸ’§â„ï¸)
Soft matter dynamics (ðŸ§Š)
Aqueous interfaces (ðŸŒŠ)
Complex systems (ðŸ§©)
Electrochemistry (âš¡)
Nanofluidics (ðŸŒŒ)

Expertise

Biographie Publications Recherche

My research focuses on understanding aqueous interfaces and developing electrochemical technologies for clean and sustainable energy generation, conversion, and storage, including the water-energy nexus and water-cleaning systems. My goal is to develop new paradigms in electrochemical material design using fundamental knowledge of water and aqueous interfaces from atomic to device scale and linking basics to applications.
Education:
ðŸŽ“ Masters - Moscow Institute of Physics and Technology - 2007.
ðŸŽ“ Ph.D. - Prokhorov Institute of General Physics - 2011.
Research Focus:
ðŸ”¬ Fundamental Properties of Water
ðŸ”¬ Electrodynamics of Water and Ice
ðŸ”¬ Broadband Dielectric and Terahertz Spectroscopy
ðŸ”¬ Nanofluidics
ðŸ”¬ Electrochemical Systems for Energy Generation and Storage
Published Author:
ðŸ“š Vasily Artemov "Electrodynamics of Water and Ice" Springer 2021.
Join me in the relentless pursuit of knowledge and groundbreaking innovation in water science, electrochemistry, and sustainable energy solutions.

Formation

Ph. D.

| Condensed matter physics

2011 – 2011 Prokhorov Institute of General Physics (GPI)

Master

| Applied Physics and Mathematics (graduated with honors)

2007 – 2007 Moscow Institute of Physics and Technology (MIPT)

Publications représentatives

The Electrodynamics of Water and Ice (book)

V. Artemov
Published in Springer Series in Chemical Physics 124, 2021 in

Confinement-Controlled Water Engenders Unusually High Electrochemical Capacitance

S. Melnik, A. Ryzhov, A. Kiselev, A. Radenovic, T. Weil, K. J. Stevenson, and V. Artemov
Published in J. Phys. Chem. Lett. 14, 29, 6572-6576 (2023) in

The Three-Phase Contact Potential Difference Modulates the Water Surface Charge

V. Artemov, L. Frank, R. Doronin, P. StÃ¤rk, A. Schlaich, A. Andreev, T. Leisner, A. Radenovic, and A. Kiselev
Published in J. Phys. Chem. Lett. 14, 20, 4796-4802 (2023) in

Ionization Difference between Weak and Strong Electrolytes as Perturbed by Conductivity Spectra Analysis

V. Artemov, A. Ryzhov, H. Ouerdane, K. J. Stevenson
Published in J. Phys. Chem. B 127, 1, 261-268 (2023) in

Revealing excess protons in the infrared spectrum of liquid water

V. Artemov, E. Uykur, S. Roh, A. Pronin, H. Ouerdane, and M. Dressel
Published in Scientific Reports, 10, 11320 (2020). in

Anomalously High Proton Conduction of Interfacial Water

V. Artemov, E. Uykur, P. O. Kapralov, A. Kiselev, K. Stevenson, H. Ouerdane, M. Dressel
Published in J. Phys. Chem. Lett., 11, 3623-3628 (2020) in

A unified mechanism for ice and water electrical conductivity from direct current to terahertz

V. Artemov
Published in Phys. Chem. Chem. Phys., 21, pp. 8067 â€“ 8072 (2019) in

Conductivity of aqueous HCl, NaOH and NaCl solutions: Is water just a substrate?

V. Artemov et al.
Published in Eur. Phys. Lett. 109, 26002 (2016) in

Recherche

Sustainable electric energy storage

We innovate in environmentally neutral electrical energy storage systems, such as aqueous batteries and supercapacitors, by leveraging recent advances in aqueous nanofluidics and nanomaterials research. We believe aqueous batteries for the transportation and renewable energy sectors can reduce greenhouse gas emissions and pollution. By using natural 2D materials, we are meeting market needs, reducing costs, and increasing stability.