See also Nikita’s Google Scholar profile.
2024
[19] B. Coquinot and N. Kavokine. Hydrodynamics beyond the wall. Nat. Mater. 23, 1021-1022 (2024)
[18] B. Coquinot, L. Bocquet and N. Kavokine. Hydroelectric energy conversion of waste flows through hydro-electronic drag. PNAS 121, e2411613121 (2024). arXiv 2403.20209
[17] N. Kavokine, M. Müller, A. Georges and O. Parcollet. Exact numerical solution of the fully connected classical and quantum Heisenberg spin glass. Phys. Rev. Lett. 133, 016501 (2024). arXiv 2312.14598
2023
[16] B. Coquinot, M. Becker, R. R. Netz, L. Bocquet and N. Kavokine. Collective modes and quantum effects in two-dimensional nanofluidic channels. Faraday Discussions 249, 162-180 (2024). arXiv 2306.00837
[15] X. Yu, A. Principi, K.-J. Tielrooij, M. Bonn and N. Kavokine. Electron cooling in graphene enhanced by plasmon-hydron resonance. Nat. Nanotech. 18, 898-904 (2023). arXiv 2301.05095
[14] P. Robin, A. Delahais, L. Bocquet and N. Kavokine. Ion filling of a one-dimensional nanofluidic channel in the interaction confinement regime. J. Chem. Phys. 158, 124703 (2023). arXiv 2301.04622
[13] A. Marcotte, M. Lizee, B. Coquinot, N. Kavokine, K. Sobnath, C. Barraud, A. Bhardwaj, B. Radha, A. Niguès, L. Bocquet and A. Siria. Strong electronic winds blowing under liquid flows on carbon surfaces. Phys. Rev. X 13, 011020 (2023). arXiv 2205.05037
[12] B. Coquinot, L. Bocquet and N. Kavokine. Quantum feedback at the solid-liquid interface: flow-induced current and its negative contribution to friction. Phys. Rev. X 13, 011019 (2023). arXiv 2205.03250
2022
[11] N. Kavokine. When ions break the law. Nat. Nanotech. (2022)
[10] N. Kavokine, P. Robin and L. Bocquet. Interaction confinement and electronic screening in two-dimensional nanofluidic channels. J. Chem. Phys. 157, 114703 (2022). arXiv 2206.02591
[9] N. Kavokine, M.-L. Bocquet and L. Bocquet. Fluctuation-induced quantum friction in nanoscale water flows. Nature 602, 84-90 (2022). arXiv 2105.03413
2021
[8] P. Robin, N. Kavokine and L. Bocquet. Modeling of emergent memory and voltage spiking in ionic transport through angstrom-scale slits. Science 373, 687 – 691 (2021). arXiv 2105.07904
[7] N. Kavokine, R. R. Netz and L. Bocquet. Fluids at the Nanoscale: from continuum to sub-continuum transport. Annu. Rev. Fluid Mech. 53, 377 – 410 (2021). arXiv 2011.14111
2020
[6] S. Marbach, N. Kavokine and L. Bocquet, Resonant osmosis across active switchable membranes. J. Chem. Phys. 152, 054704 (2020). arXiv 2002.02931
[5] N. Kavokine, S. Zou, R. Liu, A. Niguès, B. Zou and L. Bocquet. Ultrafast photomechanical transduction through thermophoretic implosion. Nat. Commun. 11, 50 (2020).
2019
[4] N. Kavokine, S. Marbach, A. Siria and L. Bocquet. Ionic Coulomb blockade as a fractional Wien effect. Nat. Nanotech. 14, 573 – 578 (2019). arXiv 2005.05199
2017
[3] J. Vialetto, M. Hayakawa, N. Kavokine, M. Anyfantakis, S. Rudiuk, M. Morel and D. Baigl. Magnetic actuation of discrete liquid entities with a deformable paramagnetic liquid substrate. Angew. Chem. Int. Ed. 56, 16565 – 16570 (2017)
2016
[2] S. Lou, Y. Adam, E. Weinstein, E. Williams, K. Williams, V. Parot, N. Kavokine, S. Liberles, L. Madisen, H. Zeng, and A. Cohen. Genetically targeted all-optical electrophysiology with a transgenic Cre-dependent Optopatch mouse. J. Neurosci., 43, 11059 – 11073, (2016)
[1] N. Kavokine, S. Rudiuk, M. Morel, T. Bickel and D. Baigl. Light-Driven Transport of a Liquid Marbles with and against Surface Flows. Angew. Chem. Int. Ed. 55, 11183 – 11187 (2016)
PhD Thesis
N. Kavokine. Many-body effects in nanoscale fluid transport. (PDF)