Ключевые публикации

ВАЖНО! Все публикации сотрудников Института Вы можете найти здесь:
Система мониторинга и учета научной деятельности ИК СО РАН SciAct

Основные публикации НТК по разработке гетерогенных катализаторов селективного жидкофазного окисления

1. N V Maksimchuk, M N Timofeeva, M S Melgunov, A.N. Shmakov, Yu. A. Chesalov, D N Dybtsev, V P Fedin, O A Kholdeeva, Heterogeneous selective oxidation catalysts based on coordination polymer MIL-101 and transition metal substituted polyoxometalates, J. Catal, 2008, 257, 315–323.
2. M. N. Timofeeva, O.A. Kholdeeva, S. H. Jhung, J. S. Chang, Titanium and cerium-containing mesoporous silicate materials as catalysts for oxidative cleavage of cyclohexene with H₂O₂: a comparative study of catalytic activity and stability, Applied Catalysis A: General, 2008, 345, 195-200.
3. M V Barmatova, I D Ivanchikova, O A Kholdeeva,V I Zaikovskii, A N Shmakov, M S Mel^,gunov, Synthesis of catalytically active Ti-doped mesoporous shell-solid core spherical silica particles, Catal. Lett., 2009, 127, 75-82.
4. O.A. Kholdeeva, I.D. Ivanchikova, M. Guidotti, N. Ravasio, M. Sgobba, M. Barmatova, How to reach 100% selectivity in H₂O₂-based oxidation of 2,3,6-trimethylphenol to trimethyl-p-benzoquinone over Ti,Si-catalysts, Catal. Today, 2009, 141, 330-336.
5. OV Zalomaeva, I D Ivanchikova, O A Kholdeeva, A B Sorokin, Kinetics and mechanism of the oxidation of alkylsubstituted phenols and naphthols with ^tBuOOH in the presence of supported iron phthalocyanines, New J. Chem. 2009, 33, 1031-1037.
6. A J Bonon , D Mandelli, O A Kholdeeva, M V Barmatova, Yu N Kozlov, G B Shul’pin, Oxidation of alkanes and olefins with hydrogen peroxide in acetonitrile solution catalyzed by a mesoporous titanium-silicate Ti-MMM-2, Applied Catalysis A: General, 365 (2009) 96–104.
7. O. A. Kholdeeva, I. D. Ivanchikova, M. Guidotti, C. Pirovano, N. Ravasio, M. V. Barmatova, Y.A. Chesalov, Highly selective H₂O₂-based oxidation of alkylphenols to benzoquinones over silica-supported titanium catalysts: Ti cluster site versus Ti single site, Adv. Synth. Catal, 2009, 351, 1877-1889.
8. M. V. Barmatova, I. D. Ivanchikova, O. A. Kholdeeva, A. N. Shmakov, V. I. Zaikovskii, M. S. Mel’gunov, Magnetically separable titanium-silicate mesoporous materials with core-shell morphology: synthesis, characterization and catalytic properties, J. Mater. Chem, 2009, 19, 7332–7339.

9. O. A. Kholdeeva, B.G. Donoeva, T. A. Trubitsina, G. Al-Kadamany, U. Kortz, Unique Catalytic Performance of the Polyoxometalate [Ti₂(OH)₂As₂W₁₉O₆₇(H₂O)]^8-: The Role of 5-Coordinated Titanium in H₂O₂ Activation, Eur. J. Inorg. Chem. 2009, 5134–5141.

10. B.G. Donoeva, T. A. Trubitsina, G. I. Maksimov, R. I. Maksimovskaya, O. A. Kholdeeva, Catalytic Properties and Stability of the Heteropolytungstate [P₂W₂₁O₇₁(H₂O)₃]^6- in H₂O₂-Based Oxidations, Eur. J. Inorg. Chem. 2009, 5142–5147.
11. O.A. Kholdeeva, N.V. Maksimchuk, G.M. Maksimov, Polyoxometalate-Based Heterogeneous Catalysts for Liquid Phase Selective Oxidations: Comparison of Different Strategies, Catal. Today, 2010, 157, 107–113
12. NV Maksimchuk, K.A. Kovalenko, SS Arzumanov, YuA Chesalov, AG Stepanov, VP Fedin, and OA Kholdeeva, Hybrid polyoxotungstate/MIL-101 materials: Synthesis, Characterization, and Catalysis of H₂O₂-based alkene epoxidation, Inorg. Chem., 2010, 49 (6), 2920–2930
13. N. S. Antonova, J. J. Carbó, U. Kortz, O. Kholdeeva, J. M. Poblet, Mechanistic insights into the alkene epoxidation with H₂O₂ by Ti- and other TM-containing polyoxometalates: role of the metal nature and coordination environment, J. Am. Chem. Soc., 2010, 132, 7488–7497.
14. O.V. Zalomaeva, O. A. Kholdeeva, A. B. Sorokin, Clean catalytic oxidation of 8-hydroxyquinoline to quinoline-5,8-dione with tBuOOH in the presence of supported iron phthalocyanines, Green Chemistry, 2010, 12, 1076 – 1082.
15. Б. Г. Доноева, Т. А. Трубицына, Г. Аль-Кадамани, У. Корц, О. А. Холдеева, Каталитические свойства полиоксометаллата [Ti₂(OH)₂As₂W₁₉O₆₇(H₂O)]^8- в реакциях селективного окисления пероксидом водорода, Кинетика и катализ, 2010, т. 51, № 6, с. 843–849.
16. G Al-Kadamany, S S Mal, B Milev, B Donoeva, R Maksimovskaya, O A Kholdeeva, U Kortz, Hexa-zirconium/hafnium containing tungstoarsenates(III) and their oxidation catalysis properties, Chem. Eur. J. 2010, 16, 11797 – 11800.
17. B G Donoeva, T A Trubitsina, N S Antonova, J J Carbó, J M Poblet, G Al Kadamany, U Kortz, O A Kholdeeva, Epoxidation of alkenes with H₂O₂ catalyzed by di-titanium-containing 19-tungstodiarsenate(III): experimental and theoretical studies, Eur. J. Inorg. Chem. 2010, 5312–5317
18. N. V. Maksimchuk, K. A. Kovalenko, V. P. Fedin, O. A. Kholdeeva, Selective oxidation of alkenes to the corresponding α,β-unsaturated ketones over MIL-101, Adv. Synth. Catal. 2010, 352, 2943-2948.
19. O. V. Zalomaeva, K. A. Kovalenko, Yu. A. Chesalov, M. S. Mel’gunov, V. I. Zaikovskii, V.V. Kaichev, A. B. Sorokin, O. A. Kholdeeva, V. P. Fedin, Immobilization of iron tetrasulfophthalocyanine on metal organic framework MIL-101, Dalton Trans., 2011, 40 (7), 1441 – 1444
20. N. V. Maksimchuk, O. A. Kholdeeva, K. A. Kovalenko, V. P. Fedin, MIL-101 Supported Polyoxometalates: Synthesis, Characterization and Catalytic Applications in Selective Liquid-Phase Oxidation, Israel J. Chem. 2011, 2, 281-289.
21. O. A. Kholdeeva, I. D. Ivanchikova, O. V. Zalomaeva, A. B. Sorokin, I. Y. Scobelev, E. P. Talsi, Oxidation of 2-methyl-1-naphthol to menadione with molecular oxygen: autoxidation or a spin forbidden reaction? J. Phys. Chem. B, 2011, 115 (42), 11971–11983.
22. N V Maksimchuk, O V Zalomaeva, I Y Skobelev, K A Kovalenko, V P Fedin, O A Kholdeeva, Metal-organic frameworks of the MIL-101 family
    as heterogeneous single-site catalysts. Special Issue of Proceedings of Royal Society A on “Recent Advances in Single-Site Heterogeneous Catalysis”, Proc. R. Soc. A, 2012, 468(2143) 2017-2034, doi: 10.1098/rspa.2012.0072.
23. N. V. Maksimchuk, K. A. Kovalenko, V. P. Fedin, O. A. Kholdeeva, Cyclohexane selective oxidation over metal-organic frameworks of MIL-101 family: superior catalytic activity and selectivity, Chem. Commun. 2012, 48 (54), 6812 - 6814, DOI: 10.1039/C2CC31877F
24. P. Jiménez-Lozano, I. D. Ivanchikova, O. A. Kholdeeva, J. M. Poblet, and J. J. Carbó, Alkene oxidation by Ti-containing polyoxometalates. Unambiguous characterization of the role of protonation state. Chem. Commun. 2012, 48, 9266-9268. DOI: 10.1039/c2cc34577c
25. C. Pirovano, M. Guidotti, V. Dal Santo, R. Psaro, O.A. Kholdeeva, I.D. Ivanchikova, Use of titanium-containing silica catalysts prepared by rapid and straightforward method in selective oxidations. Catalysis Today, 2012, 197, 170-177 DOI: 10.1016/j.cattod.2012.07.035.
26. I. Y. Skobelev, A. B. Sorokin, K. A. Kovalenko, V. P. Fedin, O. A. Kholdeeva, Solvent-free allylic oxidation of alkenes with O₂ mediated by Fe- and Cr-MIL-101, J. Catal. 2013, 298, 61-69 http://dx.doi.org/10.1016/j.jcat.2012.11.003
27. O. V. Zalomaeva, A. M. Chibiryaev, K. A. Kovalenko, O. A. Kholdeeva, B. S. Balzhinimaev, V. P. Fedin, Cyclic carbonates synthesis from epoxides and CO₂ over metal-organic framework Cr-MIL-101, J. Catal. 2013, 298, 179-185. http://dx.doi.org/10.1016/j.jcat.2012.11.029
28. O. A. Kholdeeva, Hydrogen peroxide activation over Ti(IV): What have we learned from studies on Ti-containing polyoxometalates, Eur. J. Inorg. Chem., 2013, 1595–1605. DOI:10.1002/ejic.201201396
29. I. Yu. Skobelev, E. V. Kudrik, O. V. Zalomaeva, F. Albrieux, P. Afanasiev, O. A. Kholdeeva, A. B. Sorokin, Efficient epoxidation of olefins by H₂O₂ catalyzed by iron “helmet” phthalocyanine, Chem. Commun., 2013, 49 (49), 5577 – 5579
30. I. D. Ivanchikova, M. K. Kovalev, M. S. Mel’gunov, A. N. Shmakov, .Oxana A. Kholdeeva. User-friendly synthesis of highly selective and recyclable mesostructured titanium-silicate catalysts for the production of bulky benzoquinones, Catal. Sci. Technol., 2014, 4 (1), 200 – 207. DOI:10.1039/C3CY00615H
31. I. D. Ivanchikova, J. S. Lee, N. V. Maksimchuk, A. N. Shmakov, Yu. A. Chesalov, A. B. Ayupov, Y. K. Hwang, C.-H. Jun, J.-S. Chang, O. A. Kholdeeva, Highly selective H₂O₂-based oxidation of alkylphenols to p-benzoquinones over MIL-125 metal–organic frameworks, Eur. J. Inorg. Chem. 2014 (1), 132-139, DOI: 10.1002/ejic.201301098
32. O. A. Kholdeeva, Recent developments in liquid-phase selective oxidation using environmentally benign oxidants and mesoporous metal-silicates, Catal. Sci. Technol., 2014, 4 (7), 1869 – 1889 DOI:10.1039/C4CY00087K.
33. I. D. Ivanchikova, N.V. Maksimchuk, R. I. Maksimovskaya, G. M. Maksimov, O. A. Kholdeeva, Highly selective oxidation of alkylated phenols to p-benzoquinones with aqueous hydrogen peroxide catalyzed by divanadium substituted polyoxotungstates ACS Catalysis, 2014, 4, 2706-2713. DOI 10.1021/cs500738e.
34. O. A. Kholdeeva, I. Y. Skobelev, I. D. Ivanchikova, K. A. Kovalenko, V. P. Fedin, A. B. Sorokin, Hydrocarbon oxidation over Fe- and Cr-containing metal-organic frameworks MIL-100 and MIL-101 – a comparative study, Catal. Today, 2014, 238, 54-61, DOI: 10.1016/j.cattod.2014.01.010
35. O. A. Kholdeeva, I. D. Ivanchikova, N. V. Maksimchuk, M. S. Mel’gunov, J.-S. Chang, M. Guidotti, A. A. Shutilov, V. I. Zaikovskii, Environmentally Benign Oxidation of Alkylphenols to p-Benzoquinones: A Comparative Study of Various Ti-containing Catalysts, Topics Catal. 2014, 57, 1377-1384. DOI: 10.1007/s11244-014-0306-4.
36. O. V. Zalomaeva, V. Yu. Evtushok, G. M. Maksimov, O. A. Kholdeeva, Selective oxidation of pseudocumene and 2-methylnaphthelene with hydrogen peroxide catalyzed by a γ-Keggin divanadium-substituted polyoxotungstate. J. Organomet. Chem., 2015, 793, 210-216. DOI: 10.1016/j.jorganchem.2015.04.020
37. I. D. Ivanchikova, I. Y. Skobelev, O. A. Kholdeeva, Kinetics and mechanism of anthracene oxidation with tert-butyl hydroperoxide over metal-organic frameworks Cr-MIL-101 and Cr-MIL-100, J. Organomet. Chem., 2015, 793, 175-181 doi:10.1016/j.jorganchem.2015.03.022. 2.3
38. I. Y. Skobelev, O. V. Zalomaeva, OA Kholdeeva, J M Poblet, J J Carbó, Mechanism of thioether oxidation over di- and tetrametic Ti centers: Kinetic and DFT studies based on model Ti-containing polyoxometalates Chem. Eur J., 2015, 21, 14496 –14506. DOI: 10.1002/chem.201501157 5.71
39. I. D. Ivanchikova, N.V. Maksimchuk, I. Y. Skobelev, O. A. Kholdeeva, Mesoporous niobium–silicates prepared by evaporation–induced self–assembly as catalysts for selective oxidations with aqueous H₂O₂, J. Catal, 2015, 332, 138–148, 10.1016/j.jcat.2015.10.003 7.3
40. N.V. Maksimchuk, I.D. Ivanchikova, A. B. Ayupov, O.A. Kholdeeva, One-step solvent-free synthesis of cyclic carbonates by oxidative carboxylation of styrenes over a recyclable Ti-containing catalyst, Applied Catalysis B: Environmental 2016, 181, 363–370 DOI: 10.1016/j.apcatb.2015.08.010. 8.5
41. O. A. Kholdeeva, O. V. Zalomaeva, Recent advances in transition-metal catalyzed selective oxidation of phenols and methoxyarenes using environmentally benign oxidants, Coord. Chem. Rev. 2016, 306, 302-330. DOI: 10.1016/j.ccr.2015.07.019 13
42. O. A. Kholdeeva, Selective Oxidation of Aromatic Rings, In Arene Chemistry: Reaction Mechanisms and Methods for Aromatic Compounds, (ed J. Mortier), Wiley, 2016, Ch. 14, pp.365-398.
43. P. Jiménez-Lozano, I. Y. Skobelev, O. A. Kholdeeva, J M Poblet, J J Carbó, Alkene epoxidation catalyzed by Ti-containing polyoxometalates: Unprecedented β-oxygen transfer mechanism, Inorg. Chem., 2016, 55 (12), 6080–6084. DOI: 10.1021/acs.inorgchem.6b00621 4.8
44. V.V. Torbina, I.D. Ivanchikova, O.A. Kholdeeva, I.Yu. Skobelev, O.V. Vodyankina, Propylene glycol oxidation with tert-butyl hydroperoxide over Cr-containing metal-organic frameworks MIL-101 and MIL-100, Catal. Today, 278, 2016, 97–103. doi:10.1016/j.cattod.2016.04.008 4.3
45. O. A. Kholdeeva, Liquid-Phase Selective Oxidation Catalysis with Metal-Organic Frameworks, Catal. Today, 2016, 278, 22-29. .doi:10.1016/j.cattod.2016.06.010 4.3
46. O. A. Kholdeeva, Oxidation of phenols, in Applied Homogeneous Catalysis with Organometallic Compounds, Eds. B. Cornils, W. A. Hermann, M. Beller, R. Paciello, Wiley-VCH, 2017, pp.545-570. ISBN: 978-3-527-32897-0
47. O. V. Zalomaeva, V.Yu. Evtushok, G.M. Maksimov, R.I. Maksimovskaya, O. A. Kholdeeva, Synthesis of coenzyme Qo through divanadium-catalyzed oxidation of 3,4,5-trimethoxytoluene with hydrogen peroxide, Dalton Transactions, 2017, 46, 5202 – 5209. DOI: 10.1039/c7dt00552k 4.1
48. I.D. Ivanchikova, I. Y. Skobelev, N. V. Maksimchuk, E. A. Paukshtis, M. V. Shashkov, O. A. Kholdeeva, Toward understanding the unusual reactivity of Nb-containing catalysts in epoxidation of C=C bonds with hydrogen peroxide. J. Catal 2017, 356C, 85-99. https://doi.org/10.1016/j.jcat.2017.09.011
49. I. Y. Skobelev, V. Yu. Evtushok, O. A. Kholdeeva, N. V. Maksimchuk, R.I. Maksimovskaya, J. M. Ricart, J M Poblet, J J Carbó, Understanding the Regioselectivity of Aromatic Hydroxylation Over Divanadium-Substituted γ-Keggin Polyoxotungstate, ACS Catal., 2017, 7, 8514–8523. DOI: 10.1021/acscatal.7b02694
50. C Evangelisti, M. Guidotti, C. Tiozzo, R. Psaro, N. Maksimchuk, I. Ivanchikova, A. Shmakov, O. Kholdeeva, Titanium-Silica Catalyst Derived from Defined Metallic Titanium Cluster Precursor: Synthesis and Catalytic Properties in Selective Oxidations, Inorg. Chim. Acta, 2018, 470, 393-401 https://doi.org/10.1016/j.ica.2017.06.059.
51. V.Yu. Evtushok, A.N. Suboch, O.Yu. Podyacheva, O.A. Stonkus, V. I. Zaikovskii, Yu.A. Chesalov, L.S. Kibis, O.A. Kholdeeva, Highly efficient catalysts based on divanadium-substituted polyoxometalate and N-doped carbon nanotubes for selective oxidation of alkylphenols, ACS Catal. ACS Catal. 2018, 8, 1297−1307, http://dx.doi.org/10.1021/acscatal.7b03933
52. N.V. Maksimchuk, I.D. Ivanchikova, O. V. Zalomaeva, I. Y. Skobelev, Yu. A. Chesalov, A. A. Shmakov, O. A. Kholdeeva, Tungsten-incorporated mesoporous silicate W-MMM-E as heterogeneous catalyst for liquid-phase oxidations with aqueous H₂O₂, Catalysts, 2018, 8, 95-115; doi:10.3390/catal8030095
53. N.V. Maksimchuk, G.M. Maksimov, V.Yu. Evtushok, I.D. Ivanchikova, Yu.A. Chesalov, R.I. Maksimovskaya, O.A. Kholdeeva, A. Solé-Daura, J M Poblet, J J Carbó, Relevance of Protons in Heterolytic Activation of H₂O₂ over Nb(V). Insights from Model Studies on Nb-substituted Polyoxometalates ACS Catal, 2018, 8, 9722–9737. DOI: 10.1021/acscatal.8b02761
54. O. V. Zalomaeva, N. V. Maksimchuk, G. M. Maksimov, O. A. Kholdeeva, Thioether oxidation with H₂O₂ catalyzed by Nb-substituted polyoxotungstates. Mechanistic insights, Eur. J. Inorg. Chem., special issue on POMs, DOI: 10.1002/ejic.201801108.
55. O. A. Kholdeeva, I. D. Ivanchikova, N. V. Maksimchuk, I. Y. Skobelev, H₂O₂-based selective oxidations: Nb(V) versus Ti(IV), Catal. Today, DOI: 10.1016/j.cattod.2018.04.002
56. N.V. Maksimchuk, I.D. Ivanchikova, O. V. Zalomaeva, I. Y. Skobelev, Yu. A. Chesalov, A. A. Shmakov, O. A. Kholdeeva, Tungsten-incorporated mesoporous silicate W-MMM-E as heterogeneous catalyst for liquid-phase oxidations with aqueous H₂O₂, Catalysts, 2018, 8, 95-115; doi:10.3390/catal8030095
57. N.V. Maksimchuk, G.M. Maksimov, V.Yu. Evtushok, I.D. Ivanchikova, Yu.A. Chesalov, R.I. Maksimovskaya, O.A. Kholdeeva, A. Solé-Daura, J. M. Poblet, J. J. Carbó, Relevance of Protons in Heterolytic Activation of H₂O₂ over Nb(V). Insights from Model Studies on Nb-substituted Polyoxometalates ACS Catal., 2018, 8, 9722–9737. DOI: 10.1021/acscatal.8b02761
58. O. V. Zalomaeva, N. V. Maksimchuk, G. M. Maksimov, O. A. Kholdeeva, Thioether oxidation with H₂O₂ catalyzed by Nb-substituted polyoxotungstates. Mechanistic insights, Eur. J. Inorg. Chem., special issue on POMs, 2019, 410–416. DOI: 10.1002/ejic.201801108.
59. O. A. Kholdeeva, I. D. Ivanchikova, N. V. Maksimchuk, I. Y. Skobelev, H₂O₂ -based selective oxidations: Nb(V) versus Ti(IV), Catal. Today, 2019, 333 63–70. DOI: 10.1016/j.cattod.2018.04.002
60. V. V. Torbina, N. S. Nedoseykina, I. D. Ivanchikova, O. A. Kholdeeva, O. V. Vodyankina, Propylene glycol oxidation with hydrogen peroxide over Zr-containing metal–organic framework UiO-66, Catal. Today, 2019, 333, 47–53. DOI: 10.1016/j.cattod.2018.11.063
61. A. E. Khudozhitkov, S. S. Arzumanov, D. I. Kolokolov, O.A. Kholdeeva, D. Freude, A. G. Stepanov, Guests like gear levers: Donor binding to coordinatively unsaturated metal sites in MIL-101(Cr) controls the linkers rotation, Chem. Eur. J., 2019, 25, 5163 – 5168. doi.org/10.1002/chem.201900585
62. N. Maksimchuk, J.S. Lee, A. Ayupov, J.-S. Chang, O. Kholdeeva, Cyclohexene oxidation with H₂O₂ over metal-organic framework MIL-125(Ti): the effect of protons on the reactivity, Catalysts 2019, 9, 324; doi:10.3390/catal9040324
63. N.V. Maksimchuk, I.D. Ivanchikova, G.M. Maksimov, I.V. Eltsov, V.Yu. Evtushok, O.A. Kholdeeva, D. Lebbie, R.J. Errington, A. Solé-Daura, J.M. Poblet, J.J. Carbó, Why does Nb(V) show higher heterolytic pathway selectivity than Ti(IV) in epoxidation with H₂O₂ ? Answers from model studies on Nb- and Ti-substituted Lindqvist tungstates, ACS Catal., 2019, 9, 6262-6275. DOI: 10.1021/acscatal.9b01326
64. O.A. Kholdeeva, Recent progress in selective oxidations with hydrogen peroxide catalyzed by polyoxometalates, in: K. P. Bryliakov (ed.), Frontiers of Green Catalytic Selective Oxidations, Green Chemistry and Sustainable Technology, 2019, Ch. 3, pp. 61-92. https://doi.org/10.1007/978-981-32-9751-7_3.
65. N.V. Maksimchuk, J.S. Lee, M.V. Solovyeva, K. H. Cho, A.N. Shmakov, Yu.A. Chesalov, J.-S. Chang, O.A. Kholdeeva, Protons make possible heterolytic activation of hydrogen peroxide over Zr-based metal-organic frameworks, ACS Catal. 2019, 9, 9699−9704. DOI: 10.1021/acscatal.9b02941
66. V.Yu. Evtushok, I.D. Ivanchikova, O.Yu. Podyacheva, O. A. Stonkus, A.N. Suboch, Yu. A. Chesalov, O. V. Zalomaeva, O.A. Kholdeeva, Carbon nanotubes modified by Venturello complex as highly efficient catalysts for alkene and thioethers oxidation with hydrogen peroxide, Front. Chem. 2019, 7, 858, 1-14. DOI: 10.3389/fchem.2019.00858.
67. V.Yu. Evtushok, O.Yu. Podyacheva, A.N. Suboch, N.V. Maksimchuk, O.A. Stonkus, L.S. Kibis, O.A. Kholdeeva, H₂O₂ -based selective oxidations by divanadium-substituted polyoxotungstate supported on nitrogen-doped carbon nanomaterials, Catal. Today, 2020, 354, 196-203. DOI:10.1016/j.cattod.2019.03.060
68. O.V. Zalomaeva, V.Yu. Evtushok, I.D. Ivanchikova, T.S. Glazneva, Yu.A. Chesalov, K.P. Larionov, O.A. Kholdeeva, Nucleophilic vs electrophilic activation of hydrogen peroxide over Zr-based metal-organic frameworks, Inorg. Chem. 2020, 59, 10634-10649, DOI: 10.1021/acs.inorgchem.0c01084
69. I. D. Ivanchikova, V. Yu. Evtushok, O. V. Zalomaeva, D. I. Kolokolov, A. G. Stepanov, O. A. Kholdeeva, Heterogeneous epoxidation of menadione with hydrogen peroxide over zeolite imidazolate framework ZIF-8. Dalton Transactions, 2020, 49, 12546-12549. DOI: 10.1039/D0DT02658A
70. D.V. Brazhnik, I.Y. Skobelev, K.A. Kovalenko, O.A. Kholdeeva, Quantitative analysis of liquid-phase adsorption over chromium-containing metal-organic frameworks of MTN topology, Adsorption, 2021, 27(6), 953-962. DOI: 10.1007/s10450-020-00287-4
71. N.V. Maksimchuk, I.D. Ivanchikova, K. H. Cho, O.V. Zalomaeva, V.Yu. Evtushok, K.P. Larionov, T.S. Glazneva, J.-S. Chang, O.A. Kholdeeva. Catalytic performance of Zr-based metal-organic frameworks Zr-abtc and MIP-200 in selective oxidations with H₂O₂. Chem. Eur. J. 2021, 27, 1–9, DOI: 10.1002/chem.202005152.
72. O.A. Kholdeeva, N.V. Maksimchuk, Metal-organic frameworks in oxidation catalysis with H2O2. Catalysts 2021, 11, 283. https://doi.org/10.3390/catal11020283.
73. V. Yu. Evtushok, I. D. Ivanchikova, V. A. Lopatkin, N. V. Maksimchuk, O. Yu. Podyacheva, A. N. Suboch, O. A. Stonkus, O. A. Kholdeeva, Heterolytic alkene oxidation with H₂O₂ catalyzed by Nb-substituted Lindqvist tungstate immobilized on carbon nanotubes, Catalysis Science and Technology, 2021, 11, 3198 – 3207. DOI: 10.1039/D1CY00153A
74. N.V. Maksimchuk, V.Yu. Evtushok, O.V. Zalomaeva, G.M. Maksimov, I.D. Ivanchikova, Yu.A. Chesalov, I.V. Eltsov, P.A. Abramov, T.S. Glazneva, V.V. Yanshole, O.A. Kholdeeva, R.J. Errington, A. Solé-Daura, J.M. Poblet, J.J. Carbó. Activation of H₂O₂ over Zr(IV). Insights from Model Studies on Zr-monosubstituted Lindqvist Tungstates ACS Catal. 2021, 11, 10589–10603. doi.org/10.1021/acscatal.1c02485
75. O.V. Zalomaeva, O.Yu. Podyacheva, A.N. Suboch, L.S. Kibis, O.A. Kholdeeva, Aerobic oxidation of syringyl alcohol over N-doped carbon nanotubes, Applied Catal A, 2022, 629, 118424. doi.org/10.1016/j.apcata.2021.118424
76. X. Chen, M. Wei, A. Yang, F. Jiang, B. Li, O. A. Kholdeeva, L.Wu, Near Infrared Photothermal Catalysis for Enhanced Conversion of Carbon Dioxide under Mild Conditions, ACS Applied Materials & Interfaces, 2022, https://doi.org/10.1021/acsami.1c18889.
77. V. Yu. Evtushok, V. A. Lopatkin, O. Yu. Podyacheva, O. A. Kholdeeva, Immobilization of polyoxometalates on carbon nanotubes: tuning activity and selectivity in H₂O₂-based selective oxidations, Catalysts, 2022, 12, 472. DOI: 10.3390/catal12050472
78. I.D. Ivanchikova, O.V. Zalomaeva, N.V. Maksimchuk, O. A. Stonkus, T. S. Glazneva, Yu. A. Chesalov, A. N. Shmakov, M. Guidotti, O. A. Kholdeeva, Alkene epoxidation and thioether oxidation with hydrogen peroxide catalyzed by mesoporous zirconium-silicates, Catalysts, 2022, 12, 742. DOI: 10.3390/catal12070742
79. N.V. Maksimchuk, O. A. Kholdeeva, H₂O₂-based selective oxidations catalyzed by supported polyoxometalates: recent advances, Catalysts 2023, 13, 360. DOI: 10.3390/catal13020360
80. N. V. Maksimchuk, J. Puiggalí-Jou, O. V. Zalomaeva, K. P. Larionov, V. Yu. Evtushok, I. E. Soshnikov, A. Solé-Daura, O. A. Kholdeeva, J. M. Poblet, J. J. Carbó, Resolving the mechanism for H₂O₂ decomposition over Zr(IV)-substituted Lindqvist tungstate. Evidences of singlet oxygen intermediacy. ACS Catal. 2023, 13, 10324−10339. DOI: 10.1021/acscatal.3c02416
81. V.Yu. Evtushok, K.P. Larionov, V.A. Lopatkin, O.A. Stonkus, O.A. Kholdeeva, What factors determine activity of UiO-66 in H₂O₂-based oxidation of thioethers? The role of basic sites. J. Catal., 2023, 427, 115099, DOI: 10.1016/j.jcat.2023.115099
82. N.V. Maksimchuk, S.M. Marikovskaya, K.P. Larionov, A.A. Antonov, M.V. Shashkov, V.V. Yanshole, V.Yu. Evtushok, O.A. Kholdeeva. Tuning reactivity of Zr-substituted Keggin phosphotungstate in alkene epoxidation through balancing H₂O₂ activation pathways: unusual effect of base. Inorg. Chem. 2023, 62, 46, 18955–18969. DOI: 10.1021/acs.inorgchem.3c02578
83. O.A. Kholdeeva, Selective Oxidations in Confined Environment in: Catalysis in Confined Frameworks: Synthesis, Characterization, and Applications, eds. H. Garcia, A. Dhakshinamoorthy, Wiley‐VCH, 2023, Ch.10, pp. 333-361, ISBN:9783527350896; doi.org/10.1002/9783527839278.ch10
84. O.V. Zalomaeva, N.V. Maksimchuk, S.M. Marikovskaya, A.A. Antonov, O.A. Kholdeeva, Highly selective thioether oxidation with H₂O₂H₂O₂ catalyzed by Zr-monosubstituted Keggin phosphotungstate. Mechanistic insights. ChemCatChem, 2023, e202301374, DOI: 10.1002/cctc.202301374
85. A. Sundar, N. V. Maksimchuk, I. D. Ivanchikova, O. V. Zalomaeva, D. Bajuk-Bogdanović, O. A. Kholdeeva, G. Ćirić-Marjanović, B. S. Bassil, U. Kortz, Peroxo-Zr/Hf-Containing Wells-Dawson Polyoxometalates for H₂O₂-based Homogeneous, Heterogeneous, and Biphasic Oxidation Catalysis, ChemistryEurope 2024, 2, e20230006, DOI: 10.1002/ceur.202300066
86. V.Yu. Evtushok, I.D. Ivanchikova, O.V. Zalomaeva, A.I. Gubanov, B.A. Kolesov, T.S. Glazneva, O.A. Kholdeeva, Heterogeneous H2O2-based selective oxidations over zirconium tungstate α-ZrW₂O₈. Dalton Trans., 2024, 53, 1528 – 1540. DOI: 10.1039/D3DT03495J