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2025
Iwasaki, A.J., Kirsz, M., Pruteanu, C.G. and Ackland, G.J., 2025. An Accurate Machine-Learned Potential for Krypton under Extreme Conditions. The Journal of Physical Chemistry Letters, 16, pp.1559-1566.
2024
Kirsz, M., Pruteanu, C.G., Cooke, P.I. and Ackland, G.J., 2024. Understanding solid nitrogen through molecular dynamics simulations with a machine-learning potential. Physical Review B, 110(18), p.184107.
Kerr, M., Ackland, G.J., Marenduzzo, D., Brandani, G.B. and Pruteanu, C.G.*, 2024. Can the AMOEBA forcefield be used for high pressure simulations? The extreme case of methane and water. The Journal of Chemical Physics, 161(5).
Lue, L., Pruteanu, C.G. and Ackland, G.J., 2024. The re-entrant transition from the molecular to atomic phases of dense fluids: The case of hydrogen. The Journal of Chemical Physics, 160(19).
2023
Proctor, J.E., Pruteanu, C.G., Moss, B., Kuzovnikov, M.A., Ackland, G.J., Monk, C.W. and Anzellini, S., 2023. A comparison of different Fourier transform procedures for analysis of diffraction data from noble gas fluids. Journal of Applied Physics, 134(11).
Pruteanu, C.G., Bannerman, M.N., Kirsz, M., Lue, L. and Ackland, G.J., 2023. From atoms to colloids: does the Frenkel line exist in discontinuous potentials?. ACS Omega, 8(13), pp.12144-12153.
2022
Pruteanu, C.G.*, Loveday, J.S., Ackland, G.J. and Proctor, J.E., 2022. Krypton and the fundamental flaw of the Lennard–Jones Potential. The Journal of Physical Chemistry Letters, 13(35), pp.8284–8289.
Pruteanu, C.G.*, Robinson, V.N., Hassanali, A., Scandolo, S., Loveday, J.S. and Ackland, G.J., 2022. How to determine solubility in binary mixtures from neutron scattering data: The case of methane and water. The Journal of Chemical Physics, 156(5), p.054502.
Massani, B., Pruteanu, C.G., Conway, L.J., Robinson, V.N., Hermann, A. and Loveday, J.S., 2022. Ammonia Mono Hydrate IV: An Attempted Structure Solution. Crystals, 12(2), p.135.
2021
Pruteanu, C.G.*, Kirsz, M. and Ackland, G.J., 2021. Frenkel Line in Nitrogen Terminates at the Triple Point. The Journal of Physical Chemistry Letters, 12(47), pp.11609–11615.
Pruteanu, C.G.*, Proctor, J.E., Alderman, O.L. and Loveday, J.S., 2021. Structural markers of the Frenkel line in the proximity of Widom lines. The Journal of Physical Chemistry B, 125(31), pp.8902–8906.
2020
Pruteanu, C.G.*, Robinson, V.N. , Ansari, N., Hassanali, A., Scandolo, S. and Loveday,J.S., 2020 Squeezing oil into water under pressure: inverting the hydrophobic effect. The Journal of Physical Chemistry Letters, 11(12), pp. 4836–4833
2019
Proctor, J.E., Pruteanu, C.G.*, Morrison, I., Crowe, I.F. and Loveday, J.S., 2019. On the Transition from Gas–like to Liquid–like Behaviour in Supercritical N2. The Journal of Physical Chemistry Letters, 10(21), pp.6584–6589
Pruteanu, C.G.*, Marenduzzo, D. and Loveday, J.S., 2019. Pressure–Induced Miscibility Increase of CH4 in H2O. The Journal of Physical Chemistry B, 123(38), pp.8091–8095.
Pruteanu, C.G.*, 2019. The effect of deuteration on the optical spectra of compressed methane. AIP Advances, 9(4), p.045033.
2018
Pruteanu, C.G., 2018. Mixtures of methane and water under extreme conditions. PhD thesis.
2017
Pruteanu, C.G., Ackland, G.J., Poon, W.C. and Loveday, J.S., 2017. When immiscible becomes miscible—Methane in water at high pressures. Science Advances, 3(8), p.e1700240.
Guthrie, M., Pruteanu, C.G., Donnelly, M.E., Molaison, J.J., dos Santos, A.M., Loveday, J.S., Boehler, R. and Tulk, C.A., 2017. Radiation attenuation by single–crystal diamond windows. Journal of Applied Crystallography, 50(1), pp.76–86.
