Научные руководители
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Кривошапкина Елена Федоровнадоктор химических наук elena.krivoshapkina@itmo.ru Структурное подразделение: лаборатория прикладных материалов для энергетики Должность: заведующий лабораторией Структурное подразделение: лаборатория прикладных материалов для энергетики Должность: старший научный сотрудник Структурное подразделение: химико-биологический кластер Должность: профессор (квалификационная категория "ведущий профессор") Профиль: 02.00.04 - Физическая химия 02.00.01 - Неорганическая химия 1.4.1. - Неорганическая химия 1.4.4. - Физическая химия 1.5.4. - Биохимия Область интересов: Растворная химия, функциональные наноматериалы, полимеры, биосинтез наноматериалов, золь-гель синтез, мембраны и катализ, фудомика, функциональная нутригеномика, превентивная медицина, персонализированное питание, пищевые технологии, сонохимия. Биополимеры, ферменты, молочная промышленность. Рабочий язык: Английский, Русский |
Публикации руководителя
| Выходные данные | Год | Индексирование в БД |
| Kryuchkova A., Ponomarets A., Suchilova V., Ryabchenko E., Tracey C., Krivoshapkin P., Krivoshapkina E. 3D printing of aligned silk fibroin microfibers covered with nitrogen-doped carbon dots for anti-counterfeiting//Chemical Engineering Science, 2025, Vol. 302, No. Part B, pp. 120868 | 2025 | Scopus, Web of Science, Белый список |
| Ryabchenko E., Suslov A.P., Morozov N.A., Krivoshapkina E.F. Silica/carbon dot nanosorbent for the detection and removal of Pb(II) and Co(II) ions from wastewater//Chemical Engineering Journal, 2024, Vol. 500, pp. 156610 | 2024 | Scopus, Web of Science, Белый список |
| Osman A.I., Ayati A., Farghali M., Krivoshapkin P., Tanhaei B., Karimi-Maleh H., Krivoshapkina E., Taheri P., Tracey C., Al-Fatesh A., Ihara I., Rooney D.W., Sillanpaa M. Advanced adsorbents for ibuprofen removal from aquatic environments: a review//Environmental Chemistry Letters, 2024, Vol. 22, No. 1, pp. 373-418 | 2024 | Scopus, Web of Science, Белый список |
| Duarte T.A., Pereira R.F., Medronho B., Maltseva E.S., Krivoshapkina E.F., Varela-Dopico A., Taboada P., Fu L., Ferreira R.A., De Zea Bermudez V. A Glance at Novel Ionanofluids Incorporating Silk-Derived Carbon Dots//Chemistry of Materials, 2024, Vol. 36, No. 3, pp. 1136-1152 | 2024 | Scopus, Web of Science, Белый список |
| Tracey C., Shavronskaya D.O., Shao J., Yang H., Krivoshapkin P.V., Krivoshapkina E.F. Heterogeneous carbon dot catalysts for biodiesel production: A mini review//Fuel, 2024, Vol. 362, pp. 130882 | 2024 | Scopus, Web of Science, Белый список |
| Koshevaya E., Khramov E., Svetogorov R., Krasnov A., Martakov I., Shishkin I.I., Krivoshapkina E.F., Krivoshapkin P.V. Stokes and Anti-Stokes Luminescent Rare-Earth-Doped Tantalum Oxide Nanoparticles//Inorganic Chemistry, 2023, Vol. 62, No. 26, pp. 10369–10381 | 2023 | Scopus, Web of Science, Белый список |
| Ayati A., Tanhaei B., Beiki H., Krivoshapkin P., Krivoshapkina E., Tracey C. Insight into the adsorptive removal of ibuprofen using porous carbonaceous materials: A review//Chemosphere, 2023, Vol. 323, pp. 138241 | 2023 | Scopus, Web of Science, Белый список |
| Shavronskaya D.O., Nazarova Е.А., Krivoshapkina E.F. Optical Bi-Enzyme-Titania Biosensor System: A New Way to Detect Lactose//Biosensors and Bioelectronics: X, 2023, Vol. 14, pp. 100347 | 2023 | Scopus, Белый список |
| Gritsenko M.M., Nazarova Е.А., Krivoshapkin P.V., Krivoshapkina E.F. Titanium dioxide-based optical sensors for detecting milk adulteration//Journal of Food Composition and Analysis, 2023, Vol. 120, pp. 105335 | 2023 | Scopus, Web of Science, Белый список |
| Zhang J., Shao J., Zhang X., Rao G., Krivoshapkin P., Krivoshapkina E., Yang H., Zhang S., Cheng H. Broccoli-shaped Cu-BTC/biochar composite with enhanced water stability for toluene adsorption: Influence of humid air aging//Fuel, 2023, Vol. 335, pp. 127013 | 2023 | Scopus, Web of Science, Белый список |
| Temnikova M., Medvedev J., Medvedeva X., Delva N.H., Khairullina E., Krivoshapkina E., Klinkova A. Electrochemical Hydrodimerization of Furfural in Organic Media as an Efficient Route to Jet Fuel Precursor//ChemElectroChem, 2023, Vol. 10, No. 2, pp. e202200865 | 2023 | Scopus, Web of Science, Белый список |
| Rao G., Shao J., Chen X., Fu L., Zhang X., Wang Q., Krivoshapkin P., Krivoshapkina E., Chen H. A new strategy of preparing high-value products by co-pyrolysis of bamboo and ZIF-8//Fuel Processing Technology, 2023, Vol. 243, pp. 107669 | 2023 | Scopus, Web of Science, Белый список |
| Tracey C., Kryuchkova A.V., Bhatt T., Krivoshapkin P.V., Krivoshapkina E.F. Silk for post-harvest horticultural produce safety and quality control//Journal of Food Engineering, 2023, Vol. 337, pp. 111231 | 2023 | Scopus, Web of Science, Белый список |
| Ngo T., Tracey C., Navrotskaya A.G., Bukhtiyarov A.V., Krivoshapkin P.V., Krivoshapkina E.F. Reusable carbon dot/chitin nanocrystal hybrid for the selective detection and removal of Cr (VI) and Co (II) ions from wastewater//Carbohydrate Polymers, 2023, Vol. 304, pp. 120471 | 2023 | Scopus, Web of Science, Белый список |
| Kryuchkova A., Savin A., Kiseleva A., Dukhinova M., Krivoshapkina E., Krivoshapkin P. Magnetothermal spider silk-based scaffolds for cartilage regeneration//International Journal of Biological Macromolecules, 2023, Vol. 253, pp. 127246 | 2023 | Scopus, Web of Science, Белый список |
| Dmitrieva A., Medvedev J., Medvedeva K., Krivoshapkina E.F., Klinkova A. Synthesis of alpha-Amino Acids via Electrochemical Fixation of CO2 to Imines Using Different Metal Cathodes//Journal of the Electrochemical Society, 2023, Vol. 170, No. 7, pp. 075501 | 2023 | Scopus, Web of Science, Белый список |
| Назаровская Д.А., Кошевая Е.Д., Фахардо А.Ф., Кривошапкина Е.Ф., Кривошапкин П.В. Золь-гель синтез и изучение свойств наночастиц оксида тантала (V) для применения в онкотераностике // Медицина: теория и практика -2022. - Т. 4. - № S. - С. 381-382 | 2022 | ВАК, РИНЦ |
| Дмитриева А.П., Медведев Ю.Ю., Медведева К.В., Кривошапкина Е.Ф., Клинкова А.А. Электрокарбоксилирование иминов до альфа-аминокислот на различных металлических поверхностях // Успехи в химии и химической технологии -2022. - Т. 36. - № 6(255). - С. 21-23 | 2022 | РИНЦ |
| Nazarova Е.А., Yushkova E.D., Ivanets A.I., Prozorovich V.G., Krivoshapkin P.V., Krivoshapkina E.F. alpha-Amylase Immobilization on Ceramic Membranes for Starch Hydrolysis//Starch, 2022, Vol. 74, No. 1-2, pp. 2100017 | 2022 | Scopus, Web of Science |
| Navrotskaya A., Aleksandrova D.D., Chekini M., Yakavets I., Kheiri S., Krivoshapkina E.F., Kumacheva E. Nanostructured temperature indicator for cold chain logistics//ACS Nano, 2022, Vol. 16, No. 6, pp. 8641–8650 | 2022 | Scopus, Web of Science |
| Maltseva E.S., Nikolaeva V.O., Savin A.M., Dobryakov M.Y., Koshel E.I., Krivoshapkin P.V., Krivoshapkina E.F. Fluorescent Hybrid Material Based on Natural Spider Silk and Carbon Dots for Bioapplication//ACS Biomaterials Science and Engineering, 2022, Vol. 8, No. 8, pp. 3310-3319 | 2022 | Scopus, Web of Science |
| Koshevaya E.D., Mikhaylov V., Sitnikov P., Krivoshapkina E.F., Krivoshapkin P.V. Electrosurface properties and acid-base equilibria of Ta2O5 and Ta2O5:Eu nanoparticles in NaCl solutions//Surfaces and Interfaces, 2022, Vol. 29, pp. 101713 | 2022 | Scopus, Web of Science |
| Medvedev J., Tracey C., Engelhardt H., Steksova Y.P., Krivoshapkin P.V., Krivoshapkina E.F., Klinkova A.A. Hands-on Electrochemical Reduction of CO2: Understanding Electrochemical Principles through Active Learning//Journal of Chemical Education, 2022, Vol. 99, No. 2, pp. 1036-1043 | 2022 | Scopus, Web of Science |
| Tracey C., Predeina A.L., Krivoshapkina E.F., Kumacheva E. A 3D Printing Approach to Intelligent Food Packaging//Trends in Food Science and Technology, 2022, Vol. 127, pp. 87-98 | 2022 | Scopus, Web of Science |
| Sherstiuk A.A., Tsymbal S.A., Fakhardo A.F., Morozov V.N., Krivoshapkina E.F., Hey-Hawkins E., Krivoshapkin P.V. Hafnium oxide-based nanoplatform for combined chemoradiotherapy//ACS Biomaterials Science and Engineering, 2021, Vol. 27, No. 12, pp. 5633-5641 | 2021 | Scopus, Web of Science |
| Climova A., Ibrahim M., Salamahina A., Savin A.M., Dukhinova M.S., Barakova N.V., Krivoshapkina E.F. Application of extracted beta-glucan from oat for beta-carotene encapsulation//Journal of Food Science and Technology, 2021, Vol. 58, No. 7, pp. 2641-2650 | 2021 | Scopus, Web of Science |
| Kiseleva A.P., Nestor G., Ostman J.R., Kryuchkova A.V., Savin A.M., Krivoshapkin P.V., Krivoshapkina E.F., Seisenbaeva G., Kessler V.G. Modulating Surface Properties of the Linothele fallax Spider Web by Solvent Treatment//Biomacromolecules, 2021, Vol. 22, No. 12, pp. 4945-4955 | 2021 | Scopus, Web of Science |
| Withanage S., Savin A.M., Nikolaeva V.O., Kiseleva A.P., Dukhinova M.S., Krivoshapkin P.V., Krivoshapkina E.F. Native Spider Silk-Based Antimicrobial Hydrogels for Biomedical Applications//Polymers, 2021, Vol. 13, No. 11, pp. 1796 | 2021 | Scopus, Web of Science |
| Alikina M., Shkodenko L., Kramarenko A., Chernyshov I., Belyaeva A., Gutsalova A., Krivoshapkina E., Koshel E., Vinogradov A. ClO2-Loaded Aerogels with Biocide Effect//ACS Applied Materials and Interfaces, 2021, Vol. 13, No. 41, pp. 49490–49499 | 2021 | Scopus, Web of Science |
| Koshevaya E.D., Krivoshapkina E.F., Krivoshapkin P.V. Tantalum oxide nanoparticles as an advanced platform for cancer diagnostics: a review and perspective//Journal of Materials Chemistry B, 2021, Vol. 9, No. 25, pp. 5008-5024 | 2021 | Scopus, Web of Science |
| Balanov V.A., Kiseleva A.P., Krivoshapkina E.F., Kashtanov E.А., Gimaev R.R., Zverev V.I., Krivoshapkin P.V. Synthesis of (Mn(1-x)Znx)Fe2O4 nanoparticles for magnetocaloric applications//Journal of Sol-Gel Science and Technology, 2020, Vol. 95, No. 3, pp. 795-800 | 2020 | Scopus, Web of Science |
| Mikhaylov V.I., Kryuchkova A.V., Sitnikov P.A., Koval L.A., Zemskaya N.V., Krivoshapkina E.F., Krivoshapkin P.V. Magnetite Hydrosols with Positive and Negative Surface Charge of Nanoparticles: Stability and Effect on the Lifespan of Drosophila melanogaster//Langmuir, 2020, Vol. 36, No. 16, pp. 4405–4415 | 2020 | Scopus, Web of Science |
| Mosina K.S., Nazarova Е.А., Vinogradov A.V., Vinogradov V.V., Krivoshapkina E.F., Krivoshapkin P.V. Alumina Nanoparticles for Firefighting and Fire Prevention//ACS Applied Nano Materials, 2020, Vol. 3, No. 5, pp. 4386-4393 | 2020 | Scopus, Web of Science |
| Navrotskaya A.G., Aleksandrova D.D., Krivoshapkina E.F., Sillanpaa M., Krivoshapkin P.V. Hybrid materials based on carbon nanotubes and nanofibers for environmental applications//Frontiers in Chemistry, 2020, Vol. 8, pp. 546 | 2020 | Scopus, Web of Science |
| Kiseleva A.P., Krivoshapkin P.V., Krivoshapkina E.F. Recent Advances in Development of Functional Spider Silk-Based Hybrid Materials//Frontiers in Chemistry, 2020, Vol. 8, pp. 554 | 2020 | Scopus, Web of Science |
| Iugai I.A., Steksova Y.P., Vedyagin A.A., Mishakov I.V., Bauman Y.I., Belyy V.A., Danilovich D.P., Krivoshapkina E.F., Krivoshapkin P.V. MgO/carbon nanofibers composite coatings on porous ceramic surface for CO2 capture//Surface and Coatings Technology, 2020, Vol. 400, pp. 126208 | 2020 | Scopus, Web of Science |
| Mikhaylov V.I., Krivoshapkina E.F., Istomina E.I., Nazarova Е.А., Krivoshapkin P.V. The effect of layer thickness on adsorption and catalytic activity of sandwich-like ceramics//Journal of the American Ceramic Society, 2020, Vol. 103, No. 10, pp. 5999-6011 | 2020 | Scopus, Web of Science |
| Medvedev J.J., Steksova Y.P., Medvedeva X.V., Pivovarova Y., Krivoshapkina E.F., Klinkova A. Synthesis of Dimeric Molecules via Ag-Catalyzed Electrochemical Homocoupling of Organic Bromides Paired with Electrooxidation of Urea//Journal of the Electrochemical Society, 2020, Vol. 167, No. 15, pp. 155521 | 2020 | Scopus, Web of Science |
| Kiseleva A.P., Kiselev G.O., Nikolaeva V.O., Seisenbaeva G., Kessler V.G., Krivoshapkin P.V., Krivoshapkina E.F. Hybrid spider silk with inorganic nanomaterials//Nanomaterials, 2020, Vol. 10, No. 9, pp. 1853 | 2020 | Scopus, Web of Science |
| Tracey C., Torlopov M.A., Martakov I.S., Vdovichenko E.A., Zhukov M.V., Krivoshapkin P.V., Mikhaylov V.I., Krivoshapkina E.F. Hybrid cellulose nanocrystal/magnetite glucose biosensors//Carbohydrate Polymers, 2020, Vol. 247, pp. 116704 | 2020 | Scopus, Web of Science |
| Koroleva M.S., Tracey C., Sidunets Y.A., Torlopov M.A., Mikhaylov V.I., Krivoshapkin P.V., Martakov I.S., Krivoshapkina E.F. Environmentally friendly Au@CNC hybrid systems as prospective humidity sensors//RSC Advances, 2020, Vol. 10, No. 58, pp. 35031-35038 | 2020 | Scopus, Web of Science |
| Chekini M., Krivoshapkina E.F., Shkodenko L., Koshel E.I., Shestovskaya M.V., Dukhinova M.S., Kheiri S., Khuu N., Kumacheva E. Nanocolloidal hydrogel with sensing and antibacterial activities governed by iron ion sequestration//Chemistry of Materials, 2020, Vol. 32, No. 23, pp. 10066-10075 | 2020 | Scopus, Web of Science |
| Юшкова Е.Д., Назарова Е.А., Кривошапкина Е.Ф., Кривошапкин П.В. Два подхода к иммобилизации фермента на керамических мембранах // Альманах научных работ молодых ученых Университета ИТМО -2020. - Т. 1. - С. 324-328 | 2020 | РИНЦ |
| Koshevaya E.D., Nazarovskaia D.A., Simakov M., Belousov A.V., Morozov V.N., Gandalipov E.R., Krivoshapkina E.F., Krivoshapkin P.V. Surfactant-free tantalum oxide nanoparticles: Synthesis, colloidal properties, and application as a contrast agent for computed tomography//Journal of Materials Chemistry B, 2020, Vol. 8, No. 36, pp. 8337-8345 | 2020 | Scopus, Web of Science |
| Solovev Y.V., Prilepskii A.Y., Krivoshapkina E.F., Fakhardo A.F., Bryushkova E.A., Kalikina P.A., Koshel E.I., Vinogradov V.V. Sol-gel derived boehmite nanostructures is a versatile nanoplatform for biomedical applications//Scientific Reports, 2019, Vol. 9, pp. 1176 | 2019 | Scopus, Web of Science |
| Fakhardo A.F., Anastasova E.I., Gabdullina S.R., Solovyeva A.S., Saparova V.B., Chrishtop V.V., Koshevaya E.D., Krivoshapkina E.F., Krivoshapkin P.V., Kiselev G.O., Kalikina P.A., Koshel E.I., Shtil A.A., Vinogradov V.V. Toxicity Patterns of Clinically Relevant Metal Oxide Nanoparticles//ACS Applied Bio Materials, 2019, Vol. 2, No. 10, pp. 4427-4435 | 2019 | Scopus, Web of Science |
| Назаровская Д.А., Кошевая Е.Д., Фахардо А.Ф., Кривошапкина Е.Ф., Кривошапкин П.В. Золь-гель синтез и изучение свойств наночастиц оксида тантала (V) для применения в онкотераностике // Медицина: теория и практика -2019. - Т. 4. - № S. - С. 381-382 | 2019 | ВАК, РИНЦ |
| Kiseleva A.P., Kiselev G.O., Kessler V.G., Seisenbaeva G., Gets D.S., Rumyantceva V., Lyalina T.A., Fakhardo A.F., Krivoshapkin P.V., Krivoshapkina E.F. Optically active hybrid materials based on natural spider silk//ACS Applied Materials and Interfaces, 2019, Vol. 11, No. 26, pp. 22962-22972 | 2019 | Scopus, Web of Science |
| Navrotskaya A.G., Krivoshapkina E.F., Perovskiy I.A., Bauman Y.I., Mishakov I.V., Vedyagin A.A., Isaenko S.I., Krivoshapkin P.V. Correction to: Synthesis and properties of carbon–metal oxide nanomaterials (Journal of Sol-Gel Science and Technology, (2019), 92, 2, (449-457), 10.1007/s10971-019-04974-9)//Journal of Sol-Gel Science and Technology, 2019, Vol. 92, No. 2, pp. 458 | 2019 | Scopus, Web of Science |
| Yushkova E.D., Nazarova Е.А., Matyuhina A.V., Noskova A.O., Shavronskaya D.O., Vinogradov V.V., Skvortsova N.N., Krivoshapkina E.F. Application of Immobilized Enzymes in Food Industry//Journal of Agricultural and Food Chemistry, 2019, Vol. 67, No. 42, pp. 11553-11567 | 2019 | Scopus, Web of Science |
| Ulasevich S.A., Nenashkina A.V., Ryzhkov N.V., Kiselev G.O., Nikolaeva V.O., Kiseleva A.P., Mosina K., Skorb E.V., Krivoshapkina E.F. Natural Silk Film for Magnesium Protection: Hydrophobic/Hydrophilic Interaction and Self-Healing Effect//Macromolecular Materials and Engineering, 2019, Vol. 304, No. 12, pp. 1900412 | 2019 | Scopus, Web of Science |
| Adadi P., Barakova N.V., Krivoshapkina E.F. Scientific approaches to improving artisan methods of producing local food condiments in Ghana//Food Control, 2019, Vol. 106, pp. 106682 | 2019 | Scopus, Web of Science |
| Paramonova A., Kiselev G.O., Fakhardo A.F., Krivoshapkin P.V., Krivoshapkina E.F. Synthesis of upconversion zirconia nanoparticles for bioimaging//IOP Conference Series: Materials Science and Engineering, 2019, Vol. 525, No. 1, pp. 012028 | 2019 | Scopus, Web of Science |
| Torlopov M.A., Martakov I.S., Mikhaylov V.I., Legki P., Golubev Y.A., Krivoshapkina E.F., Tracey C., Sitnikov P.A., Udoratina E.V. Manipulating the colloidal properties of (non-)sulfated cellulose nanocrystals via stepwise surface cyanoethylation/carboxylation//European Polymer Journal, 2019, Vol. 115, pp. 225-233 | 2019 | Scopus, Web of Science |
| Krivoshapkina E.F., Mikhaylov V.I., Perovskiy I.A., Torlopov M.A., Ryabkov Y., Krivoshapkin P.V. The effect of cellulose nanocrystals and pH value on the flotation process for extraction of minerals//Journal of Sol-Gel Science and Technology, 2019, Vol. 92, No. 2, pp. 319-326 | 2019 | Scopus, Web of Science |
| Navrotskaya A., Krivoshapkina E.F., Perovskiy I.A., Bauman Y.I., Mishakov I.V., Vedyagin A.A., Isaenko S.I., Krivoshapkin P.V. Synthesis and properties of carbon–metal oxide nanomaterials//Journal of Sol-Gel Science and Technology, 2019, Vol. 92, No. 2, pp. 449–457 | 2019 | Scopus, Web of Science |
| Khairullina E., Mosina K.S., Choueiri R., Paradis A.P., Petruk A.A., Sciaini G., Krivoshapkina E.F., Lee A., Ahmed A., Klinkova A. An aligned octahedral core in a nanocage: synthesis, plasmonic, and catalytic properties//Nanoscale, 2019, Vol. 11, No. 7, pp. 3138-3144 | 2019 | Scopus, Web of Science |
| Mikhaylov V.I., Krivoshapkina E.F., Belyy V.A., Isaenko S.I., Zhukov M.V., Gerasimov E.Y., Krivoshapkin P.V. Magnetic mesoporous catalytic and adsorption active Fe-Al2O3 films//Microporous and Mesoporous Materials, 2019, Vol. 284, pp. 225–234 | 2019 | Scopus, Web of Science |
| Nazarova Е.А., Alimova D.S., Mikhaylov V.I., Krivoshapkina E.F., Krivoshapkin P.V. Macroporous ceramic filters from mineral raw materials for machine oils filtration//Ceramics International, 2019, Vol. 45, No. 7(Part A), pp. 8767-8773 | 2019 | Scopus, Web of Science |
| Krivoshapkin P.V., Ivanets A.I., Torlopov M.A., Mikhaylov V.I., Srivastava V., Sillanpaa M., Prozorovich V.G., Kouznetsova T.F., Koshevaya E.D., Krivoshapkina E.F. Nanochitin/manganese oxide-biodegradable hybrid sorbent for heavy metal ions//Carbohydrate Polymers, 2019, Vol. 210, pp. 135-143 | 2019 | Scopus, Web of Science |
| Adadi P., Barakova N.V., Muravyov K.Y., Krivoshapkina E.F. Designing selenium functional foods and beverages: A review//Food Research International, 2019, Vol. 120, pp. 708-725 | 2019 | Scopus, Web of Science |
| Martakov I.S., Torlopov M., Krivoshapkina E.F., Kalikina P.A., Navrotskaya A.G., Koshel E.I., Galkina A., Demin V., Krivoshapkin P.V. Biotemplate synthesis of porous alumina fibers and filters with controlled structure and properties//Journal of the Taiwan Institute of Chemical Engineers, 2019, Vol. 95, pp. 281-289 | 2019 | Scopus, Web of Science |
| Kiselev G.O., Kiseleva A.P., Ilatovskii D.A., Koshevaya E.D., Nazarovskaia D.A., Gets D.S., Vinogradov V.V., Krivoshapkin P.V., Krivoshapkina E.F. Upconversion metal (Zr, Hf, and Ta) oxide aerogels//Chemical Communications, 2019, Vol. 55, No. 56, pp. 8174-8177 | 2019 | Scopus, Web of Science |
| Adadi P., Barakova N.V., Krivoshapkina E.F. Selected methods of extracting carotenoids, characterization, and health concerns: a Review//Journal of Agricultural and Food Chemistry, 2018, Vol. 66, No. 24, pp. 5925–5947 | 2018 | Scopus, Web of Science |
| Michailov V.I., Maslennikova T.P., Krivoshapkina E.F., Tropnikov E.M., Krivoshapkin P.V. Express Al/Fe oxide–oxyhydroxide sorbent systems for Cr(VI) removal from aqueous solutions//Chemical Engineering Journal, 2018, Vol. 350, pp. 344-355 | 2018 | Scopus, Web of Science |
| Martakov I.S., Torlopov M.A., Mikhaylov V.I., Krivoshapkina E.F., Silant’Ev V.E., Krivoshapkin P.V. Interaction of cellulose nanocrystals with titanium dioxide and peculiarities of hybrid structures formation//Journal of Sol-Gel Science and Technology, 2018, Vol. 88, No. 1, pp. 13-21 | 2018 | Scopus, Web of Science |
| Krivoshapkina E.F., Krivoshapkin P.V., Vedyagin A. Sol-gel synthesis of nanostructured alumina supports for CO oxidation catalysts//Materials Science Forum, 2018, Vol. 917, pp. 152-156 | 2018 | Scopus |
| Ivanets A.I., Prozorovich V.G., Kouznetsova T.F., Radkevich A.V., Krivoshapkin P.V., Krivoshapkina E.F., Sillanpaa M. Sorption behavior of Sr-85 onto manganese oxides with tunnel structure//Journal of Radioanalytical and Nuclear Chemistry, 2018, Vol. 316, No. 2, pp. 673-683 | 2018 | Scopus, Web of Science |
| Mikhaylov V.I., Torlopov M.A., Krivoshapkina E.F., Martakov I.S., Krivoshapkin P.V. Heteroaggregation of cellulose nanocrystals with Fe2O3 nanoparticles//Journal of Sol-Gel Science and Technology, 2018, Vol. 88, No. 1, pp. 6-12 | 2018 | Scopus, Web of Science |
| Perovskiy I.A., Khramenkova E.V., Pidko E.A., Krivoshapkin P.V., Vinogradov A.V., Krivoshapkina E.F. Efficient extraction of multivalent cations from aqueous solutions into sitinakite-based sorbents//Chemical Engineering Journal, 2018, Vol. 354, pp. 727-739 | 2018 | Scopus, Web of Science |
| Mikhaylov V.I., Krivoshapkina E.F., Trigub A.L., Stalugin V.V., Krivoshapkin P.V. Detection and adsorption of Cr(VI) ions by Mesoporous Fe-Alumina Films//ACS Sustainable Chemistry and Engineering, 2018, Vol. 6, No. 7, pp. 9283-9292 | 2018 | Scopus, Web of Science |
| Ivanets A.I., Katsoshvili L.L., Krivoshapkin P.V., Prozorovich V.G., Kuznetsova T.F., Krivoshapkina E.F., Radkevich A.V., Zarubo A.M. Sorption of strontium ions onto mesoporous manganese oxide of OMS-2 type//Radiochemistry, 2017, Vol. 59, No. 3, pp. 264-271 | 2017 | Scopus, Web of Science |
| Иванец А.И., Кацошвили Л.Л., Кривошапкин П.В., Прозорович В.Г., Кузнецова Т.Ф., Кривошапкина Е.Ф., Радкевич А.В., Зарубо А.М. Сорбция ионов стронция мезопористым оксидом марганца типа OMS-2 // Радиохимия -2017. - Т. 59. - № 3. - С. 230-236 | 2017 | RSCI, ВАК, РИНЦ |
| Krivoshapkin P.V., Mishakov I.V., Vedyagin A.A., Bauman Y.I., Krivoshapkina E.F. Synthesis and characterization of carbon/ceramic composite materials for environmental applications//Composites Communications, 2017, Vol. 6, pp. 17-19 | 2017 | Scopus, Web of Science |
| Mikhaylov V.I., Krivoshapkina E.F., Belyy V.A., Krivoshapkin P.V. Synthesis and characterization of sponge-like alfa-Fe microtubes//Chemical Engineering Science, 2017, Vol. 163, pp. 27-30 | 2017 | Scopus, Web of Science |
| Vedyagin A.A., Mishakov I.V., Karnaukhov T.M., Krivoshapkina E.F., Ilyina E.V., Maksimova T.A., Cherepanova S.V., Krivoshapkin P.V. Sol-gel synthesis and characterization of two-component systems based on MgO//Journal of Sol-Gel Science and Technology, 2017, Vol. 82, No. 2, pp. 611-619 | 2017 | Scopus, Web of Science |
| Krivoshapkina E.F., Krivoshapkin P.V., Vedyagin A.A. Synthesis of Al2O3–SiO2–MgO ceramics with hierarchical porous structure//Journal of Advanced Ceramics, 2017, Vol. 6, No. 1, pp. 11-19 | 2017 | Scopus, Web of Science |
| Ivanets A.I., Prozorovich V.G., Krivoshapkina E.F., Kuznetsova T.F., Krivoshapkin P.V., Katsoshvili L.L. Physicochemical Properties of Manganese Oxides Obtained via the Sol–Gel Method during the Reduction of Potassium Permanganate by Polyvinyl Alcohol//Russian Journal of Physical Chemistry A, 2017, Vol. 91, No. 8, pp. 1486-1492 | 2017 | Scopus, Web of Science |
| Martakov I.S., Krivoshapkin P.V., Torlopov M.A., Mikhailov V.I., Krivoshapkina E.F. Study on the Stability of Hybrid Dispersions of Cellulose Nanocrystals and Aluminum Oxide//Glass Physics and Chemistry, 2016, Vol. 42, No. 6, pp. 590-596 | 2016 | Scopus, Web of Science |
| Krivoshapkin P.V., Mishakov I.V., Krivoshapkina E.F., Vedyagin A.A., Sitnikov P.A. Sol-Gel Template Preparation of Alumina Nanofillers for Reinforcing the Epoxy Resin//Journal of Sol-Gel Science and Technology, 2016, Vol. 80, No. 2, pp. 353-361 | 2016 | Scopus, Web of Science |
| Mikhailov V.I., Krivoshapkina E.F., Ryabkov Y., Krivoshapkin P.V. Influence of the Electrokinetic Properties of Cellulose on the Morphology of Iron(III) Oxide upon Template Synthesis//Glass Physics and Chemistry, 2016, Vol. 42, No. 6, pp. 582-589 | 2016 | Scopus, Web of Science |
| Krivoshapkin P.V., Mishakov I.V., Krivoshapkina E.F., Vedyagin A.A. Application of Carbon Fibers to the Template Synthesis of Titanium Dioxide//Solid Fuel Chemistry, 2016, Vol. 50, No. 3, pp. 187-190 | 2016 | Scopus, Web of Science |
| Кривошапкин П.В., Мишаков И.В., Кривошапкина Е.Ф., Ведягин А.А. Применение углеродных волокон при темплатном синтезе диоксида титана. Химия твердого топлива // Химия твердого топлива -2016. - № 3. - С. 50-53 | 2016 | ВАК, РИНЦ |
| Мартаков И.С., Торлопов М.А., Кривошапкина Е.Ф., Демин В.А., Кривошапкин П.В. Получение пористой проницаемой керамики из волокон оксида алюминия, синтезированных темплатным методом // Огнеупоры и техническая керамика -2016. - № 6. - С. 17-21 | 2016 | ВАК |
| Mikhailov V.I., Krivoshapkina E.F., Demin V.A., Tropnikov E.M., Krivoshapkin P.V. The influence of nanodisperse iron(III) oxide on the morphology of microsized alumina fibers//Russian Journal of General Chemistry, 2016, Vol. 86, No. 2, pp. 213-218 | 2016 | Scopus, Web of Science |
| Михайлов В.И., Кривошапкина Е.Ф., Демин В.А., Тропников Е.М., Кривошапкин П.В. Влияние нанодисперсного оксида железа(III) на морфологию микроразмерных волокон оксида алюминия // Журнал общей химии -2016. - Т. 86. - № 2. - С. 185-190 | 2016 | ВАК, РИНЦ |
| Михайлов В.И., Кривошапкина Е.Ф., Рябков Ю.И., Кривошапкин П.В. Влияние электрокинетических взаимодействий на морфологию оксида железа (III) при темплатном синтезе // Физика и химия стекла -2016. - Т. 42. - № 6. - С. 752-763 | 2016 | ВАК, РИНЦ |
| Кривошапкина Е.Ф., Рябков Ю.И., Кривошапкин П.В. Использование природного сырья для получения макропористой кордиеритовой керамики // Огнеупоры и техническая керамика -2016. - № 4-5. - С. 47-53 | 2016 | ВАК |
| Krivoshapkin P.V., Mikhaylov V.I., Krivoshapkina E.F., Zaikovskii V.I., Melgunov M.S., Stalugin V.V. Mesoporous Fe-alumina films prepared via sol–gel route//Microporous and Mesoporous Materials, 2015, Vol. 204, No. С, pp. 276-281 | 2015 | Scopus, Web of Science |
| Martakov I.S., Krivoshapkin P.V., Torlopov M.A., Krivoshapkina E.F. Application of Chemically Modified Celluloses as Templates for Obtaining of Alumina Materials//Fibers and Polymers, 2015, Vol. 16, No. 5, pp. 975-981 | 2015 | Scopus, Web of Science |
| Krivoshapkina E.F., Vedyagin A.A., Krivoshapkin P.V., Desyatykh I.V. Carbon Monoxide Oxidation over Microfiltration Ceramic Membranes//Petroleum Chemistry, 2015, Vol. 55, No. 10, pp. 901-908 | 2015 | Scopus, Web of Science |
| Мартаков И.С., Кривошапкин П.В., Торлопов М.А., Кривошапкина Е.Ф., Демин В.А. Влияние надмолекулярной структуры целлюлозы на морфологию волокон оксида алюминия, полученного золь-гель методом // Химия в интересах устойчивого развития -2014. - Т. 22. - № 2. - С. 145-151 | 2014 | RSCI, ВАК, РИНЦ |
| Krivoshapkin P.V., Krivoshapkina E.F., Dudkin B.N. Growth and structure of microscale fibers as precursors of alumina nanofibers//Journal of Physics and Chemistry of Solids, 2013, Vol. 74, No. 7, pp. 991-996 | 2013 | Scopus, Web of Science |