{"id":96,"date":"2020-05-17T14:33:44","date_gmt":"2020-05-17T12:33:44","guid":{"rendered":"http:\/\/aleksandrshkatulov.com\/?page_id=96"},"modified":"2025-08-17T14:41:48","modified_gmt":"2025-08-17T12:41:48","slug":"publications","status":"publish","type":"page","link":"https:\/\/aleksandrshkatulov.com\/index.php\/publications\/","title":{"rendered":"Journal publications"},"content":{"rendered":"\n

Eberbach, M. C.; Seo, H.; Shkatulov, A. I<\/strong>.; Tinnemans, P.; Huinink, H. P.; Fischer, H. R.; Adan, O. C. G. Path-Dependent Hydration and Dehydration of CaCl2<\/sub>. Crystal Growth & Design<\/em> 2025<\/strong>, 25<\/em> (15), 5679\u20135688. https:\/\/doi.org\/10.1021\/acs.cgd.4c00628<\/a>. Direct link<\/a> to PDF.<\/mark> <\/mark><\/p>\n\n\n\n

Eberbach, M. C.; Shkatulov, A. I.<\/strong>; Tinnemans, P.; Huinink, H. P.; Fischer, H. R.; Adan, O. C. G. Understanding Hydration Transitions of CaBr2<\/sub>. Crystal Growth & Design<\/em> 2025<\/strong>, 25<\/em> (8), 2409\u20132417. https:\/\/doi.org\/10.1021\/acs.cgd.4c01522<\/a>. Direct link<\/a> to PDF.<\/mark><\/p>\n\n\n\n

Eberbach, M. C.; Shkatulov, A. I<\/strong>.; Huinink, H. P.; Fischer, H. R.; Adan, O. C. G. Hydration Pathways of CaCl2<\/sub> inside Matrices with Different Pore Sizes. Microporous and Mesoporous Materials<\/em> 2025<\/strong>, 391<\/em>, 113605. https:\/\/doi.org\/10.1016\/j.micromeso.2025.113605<\/a>. Direct link<\/a> to PDF.<\/mark><\/p>\n\n\n\n

Li, Y.; Shkatulov, A<\/strong>.; Linder, M.; Schaefer, M.; Li, B.; Thess, A. Enhancing Reactivity of Na2<\/sub>Zn(SO4)2<\/sub> Hydrates by Doping for Thermochemical Energy Storage. Sol Energ Mater Sol Cells<\/em> <\/strong>2025<\/strong>, 292<\/em>. https:\/\/doi.org\/10.1016\/j.solmat.2025.113753<\/a>.<\/p>\n\n\n\n

Shkatulov, A<\/strong>.; Averina, E.; Raemaekers, T.; Fischer, H.; Adan, O. C. G.; Huinink, H. Stabilization of Reactive Bed Particles for Thermochemical Energy Storage with Fiber Reinforcement. Journal of Energy Storage<\/em>, 2024<\/strong>, 101<\/em>, 113764. https:\/\/doi.org\/10.1016\/j.est.2024.113764<\/a>. Direct link<\/a> to PDF.<\/mark><\/p>\n\n\n\n

Eberbach, M. C.; Huinink, H. P.; Shkatulov, A. I.<\/strong>; Fischer, H. R.; Adan, O. C. G. The Effect of Nanoconfinement on Deliquescence of CuCl2 Is Stronger than on Hydration. Crystal Growth & Design<\/em>, 2023<\/strong>, 23<\/em> (3), 1343\u20131354. https:\/\/doi.org\/10.1021\/acs.cgd.2c00821<\/a>. Direct link<\/a> to PDF.<\/mark><\/p>\n\n\n\n

Houben, J.; Shkatulov, A<\/strong>.; Huinink, H.; Fischer, H.; Adan, O. Caesium Doping Accelerates the Hydration Rate of Potassium Carbonate in Thermal Energy Storage. Solar Energy Materials and Solar Cells<\/em>, 2023<\/strong>, 251<\/em>. https:\/\/doi.org\/10.1016\/j.solmat.2022.112116<\/a>. Direct link<\/a> to PDF.<\/mark><\/p>\n\n\n\n

Shkatulov, A.<\/strong>; Becit, B.; Zahn, D. Molecular Dynamics Simulations of Nitrate\/MgO Interfaces and Understanding Metastability of Thermochemical Materials, ACS Omega<\/em>, 2022<\/strong>, 10.1021\/acsomega.2c00095<\/a>, Direct link<\/a> to PDF.<\/mark><\/p>\n\n\n\n

Shkatulov, A<\/strong>.; Miura, H;Kim, S. T.;Zamengo, M.;Harada, T.;Takasu, H.;Kato, Y.;Aristov, Y. Thermochemical storage of medium-temperature heat using MgO promoted with eutectic ternary mixture LiNO3<\/sub>-NaNO3<\/sub>-KNO3<\/sub>, Journal of Energy Storage<\/em>,\u00a02022<\/strong>, 51, 104409 10.1016\/j.est.2022.104409<\/a> <\/p>\n\n\n\n

Gordeeva, L.G., Shkatulov, A.I.<\/strong>, Aristov Yu. I., Closed Sorption Systems, 10.1016\/B978-0-12-819723-3.00014-7<\/a>, Link<\/a><\/p>\n\n\n\n

Solovyeva, M. V.; Shkatulov, A. I.<\/strong>; Gordeeva, L. G.; Fedorova, E. A.; Krieger, T. A.; Aristov, Y. I. Water Vapor Adsorption on CAU-10-X: Effect of Functional Groups on Adsorption Equilibrium and Mechanisms. Langmuir<\/em> 2021<\/strong>, 37<\/em> (2), 693\u2013702. 10.1021\/acs.langmuir.0c02729<\/a>. Direct link<\/a> to PDF.<\/mark><\/p>\n\n\n\n

Shkatulov A. I<\/strong>., Joosten R., Fischer H., Huinink H.P. Core-shell encapsulation of salt hydrates into mesoporous silica shells for thermochemical energy storage, ACS Applied Energy Materials\u00a02020, <\/strong>3<\/em>\u00a0(7), 6860-6869<\/em>, DOI: 10.1021\/acsaem.0c00971<\/a>. Direct link<\/a> to PDF.<\/mark><\/p>\n\n\n\n

Shkatulov A. I<\/strong>., Gordeeva L.G., Girnik I.S., Huinink H.P., <\/em>Aristov Y. Novel adsorption method for moisture and heat recuperation in ventilation: Composites \u201cLiCl\/matrix\u201d tailored for cold climate, Energy<\/em> (2020<\/strong>), 117595. Link<\/a><\/p>\n\n\n\n

Shkatulov, A.I.,<\/strong> Houben, J., Fischer, H., Huinink, H.P. Stabilization of K2<\/sub>CO3<\/sub> in vermiculite for thermochemical energy storage (2020<\/strong>) Renewable Energy<\/em>, 150, pp. 990-1000. Link<\/a> (Open Access)<\/p>\n\n\n\n

Shkatulov, A<\/strong>. I.<\/strong>, Takasu, H., Kato, Y., Aristov, Y. Thermochemical energy storage by LiNO3<\/sub> -doped Mg(OH)2<\/sub> : Rehydration study (2019<\/strong>) Journal of Energy Storage<\/em>, 22, pp. 302-310. Link<\/a><\/p>\n\n\n\n

Shkatulov, A.I.,<\/strong> Kim, S.T., Miura, H., Kato, Y., Aristov, Y.I. Adapting the MgO-CO2<\/sub> working pair for thermochemical energy storage by doping with salts (2019<\/strong>) Energy<\/em> Conversion and Management<\/em>, 185, pp. 473-481. Link<\/a><\/p>\n\n\n\n

Shkatulov, A.I.,<\/strong> Aristov, Y. Thermochemical Energy Storage using LiNO3<\/sub>-Doped Mg(OH)2<\/sub>: A Dehydration Study (2018<\/strong>) Energy Technology<\/em>, 6 (9), pp. 1844-1851. Link<\/a><\/p>\n\n\n\n

Tokarev, M.M., Gordeeva, L.G., Shkatulov, A.I.<\/strong>, Aristov, Y.I. Testing the lab-scale \u201cHeat from Cold\u201d prototype with the \u201cLiCl\/silica \u2013 methanol\u201d working pair (2018<\/strong>) Energy Conversion and Management<\/em>, 159, pp. 213-220. Link<\/a><\/p>\n\n\n\n

Shkatulov, A.<\/strong>, Aristov, Y. Calcium hydroxide doped by KNO3<\/sub> as a promising candidate for thermochemical storage of solar heat (2017<\/strong>) RSC Advances<\/em>, 7 (68), pp. 42929-42939. Link (Open Acsess)<\/a><\/p>\n\n\n\n

Shkatulov, A.<\/strong>, Aristov, Y. Modification of magnesium and calcium hydroxides with salts: An efficient way to advanced materials for storage of middle-temperature heat (2015<\/strong>) Energy<\/em>, 85, pp. 667-676. Link<\/a><\/p>\n\n\n\n

Shkatulov, A.,<\/strong> Krieger, T., Zaikovskii, V., Chesalov, Y., Aristov, Y. Doping magnesium hydroxide with sodium nitrate: A new approach to tune the dehydration reactivity of heat-storage materials (2014<\/strong>) ACS Applied Materials and Interfaces<\/em>, 6 (22), pp. 19966-19977. Link <\/a><\/p>\n\n\n\n

Shkatulov, A.,<\/strong> Ryu, J., Kato, Y., Aristov, Y. Composite material “Mg(OH)2<\/sub>\/vermiculite”: A promising new candidate for storage of middle temperature heat (2012<\/strong>) Energy<\/em>, 44 (1), pp. 1028-1034. Li<\/a>nk<\/a><\/p>\n\n\n\n

<\/p>\n","protected":false},"excerpt":{"rendered":"

Eberbach, M. C.; Seo, H.; Shkatulov, A. I.; Tinnemans, P.; Huinink, H. P.; Fischer, H. R.; Adan, O. C. G. Path-Dependent Hydration and Dehydration of CaCl2. Crystal Growth & Design 2025, 25 (15), 5679\u20135688. https:\/\/doi.org\/10.1021\/acs.cgd.4c00628. Direct link to PDF. Eberbach, M. C.; Shkatulov, A. I.; Tinnemans, P.; Huinink, H. P.; Fischer, H. R.; Adan, O.<\/p>\n

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