A new mechanism for photo-and radiation-induced decomposition of sphingolipids AG Lisovskaya, OI Shadyro, IP Edimecheva Lipids 46, 271-276, 2011 | 30 | 2011 |
Free-radical destruction of sphingolipids resulting in 2-hexadecenal formation O Shadyro, A Lisovskaya, G Semenkova, I Edimecheva, N Amaegberi Lipid insights 8, LPI. S24081, 2015 | 28 | 2015 |
A novel pathway of photoinduced decomposition of sphingolipids AG Lisovskaya, IP Edimecheva, OI Shadyro Photochemistry and Photobiology 88 (4), 899-903, 2012 | 28 | 2012 |
Partial molar volume of the hydrated electron I Janik, A Lisovskaya, DM Bartels The Journal of Physical Chemistry Letters 10 (9), 2220-2226, 2019 | 25 | 2019 |
Reduction of CO2 by hydrated electrons in high temperature water A Lisovskaya, DM Bartels Radiation Physics and Chemistry 158, 61-63, 2019 | 21 | 2019 |
ROS-induced lipid transformations without oxygen participation O Shadyro, A Lisovskaya Chemistry and physics of lipids 221, 176-183, 2019 | 20 | 2019 |
One-electron redox kinetics of aqueous transition metal couples Zn 2+/+, Co 2+/+, and Ni 2+/+ using pulse radiolysis A Lisovskaya, K Kanjana, DM Bartels Physical Chemistry Chemical Physics 22 (34), 19046-19058, 2020 | 13 | 2020 |
Destruction of amino alcohols and their derivatives on radiolysis and photolysis in aqueous solutions АА Sladkova, AG Lisovskaya, АА Sosnovskaya, IP Edimecheva, ... Radiation Physics and Chemistry 96, 229-237, 2014 | 11 | 2014 |
Pulse radiolysis investigation of radicals derived from water-soluble cyanine dyes: implications for super-resolution microscopy A Lisovskaya, I Carmichael, A Harriman The Journal of Physical Chemistry A 125 (26), 5779-5793, 2021 | 10 | 2021 |
γ-Radiolysis of room-temperature ionic liquids: An EPR spin-trapping study P Tarábek, A Lisovskaya, DM Bartels The Journal of Physical Chemistry B 123 (50), 10837-10849, 2019 | 10 | 2019 |
2‐Hexadecenal inhibits growth of C6 glioma cells NV Amaegberi, GN Semenkova, ZB Kvacheva, AG Lisovskaya, ... Cell Biochemistry and Function 37 (4), 281-289, 2019 | 9 | 2019 |
Revealing low-temperature plasma efficacy through a dose-rate assessment by DNA damage detection combined with machine learning models A Sebastian, D Spulber, A Lisouskaya, S Ptasinska Scientific reports 12 (1), 18353, 2022 | 8 | 2022 |
Reactions of aminyl radicals during radiolysis and photolysis of aqueous solutions of amino alcohols and their derivatives AG Lisovskaya, AA Sladkova, AA Sosnovskaya, OI Shadyro High Energy Chemistry 46, 241-246, 2012 | 8 | 2012 |
γ-and UV-radiation-induced degradation of sphingomyelin, lysosphingomyelin, and related compounds AG Lisovskaya, AA Sosnovskaya, OI Shadyro, MA Kisel’, VA Nikolaevich High Energy Chemistry 43, 440-444, 2009 | 4 | 2009 |
Pulse Radiolysis and Transient Absorption of Aqueous Cr (VI) Solutions up to 325° C JK Conrad, A Lisouskaya, DM Bartels ACS omega 7 (43), 39071-39077, 2022 | 3 | 2022 |
Reactivity of Zn+ aq in high-temperature water radiolysis A Lisouskaya, US Markad, I Carmichael, DM Bartels Physical Chemistry Chemical Physics 24 (33), 19882-19889, 2022 | 3 | 2022 |
Sphingolipid destruction in HOCl-treated red blood cells A Lisovskaya, K Procenko, A Kulinkina, G Semenkova, O Shadyro FEBS Journal 282 (S1), 235-235, 2015 | 3 | 2015 |
Assessing the radiation stability of key ligands in nuclear waste separation IS Sosulin, A Lisouskaya Radiation Physics and Chemistry 222, 111785, 2024 | 2 | 2024 |
High-Temperature Reaction Kinetics of the eaq– and HO2• Radicals with Iron(II) Ions in Aqueous Solutions JK Conrad, A Lisouskaya, L Barr, CR Stuart, DM Bartels The Journal of Physical Chemistry A 127 (27), 5683-5688, 2023 | 2 | 2023 |
Reactions of Nickel Ions in Water Radiolysis up to 300° C US Markad, A Lisouskaya, DM Bartels The Journal of Physical Chemistry B 127 (12), 2784-2791, 2023 | 2 | 2023 |