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 Публикации 2023

Публикации лаборатории 2023 г.   Doc.jpg

Статьи в иностранных журналах

  1. Use of Few-Layer Graphene Synthesized under Conditions of Self-Propagating High-Temperature Synthesis for Supercapacitors Applications,
    Vozniakovskii,AA; Smirnova,EA; Apraksin,RV; Kidalov,SV; Voznyakovskii,AP,
    Nanomaterials, 13(16), 2368 (2023) Q1
    DOI: 10.3390/nano13162368

  2. Improving PFSA Membranes Using Sulfonated Nanodiamonds,
    Shvidchenko,AV; Odinokov,AS; Primachenko,ON; Gofman,IV; Yevlampieva,NP; Marinenko,EA; Lebedev,VT; Kuklin,AI; Kulvelis,YV,
    Membranes, 13(8), 712 (2023) Q2
    DOI: 10.3390/membranes13080712

  3. Foam-like Ce-Fe-O-based nanocomposites as catalytic platforms for efficient hydrogen oxidation in air,
    Cam,TS; Omarov,S; Trofimuk,A; Lebedev,V; Panchuk,V; Semenov,V; Nguyen,AT; Popkov,V,
    J. Sci.: Adv. Mater. Devices, v.8, 3, 100596 (2023) Q1
    DOI: 10.1016/j.jsamd.2023.100596

  4. Isolated Spin-7/2 Species of Gadolinium (III) Chelate Complexes on the Surface of 5-nm Diamond Particles,
    Osipov,VYu; Boukhvalov,DW; Takai,K,
    Nanomaterials, v.13, 13 ArtNo: #1995 (2023) Q1
    DOI: 10.3390/nano13131995

  5. Formation of stable microporous core-shell V2O5/SiO2 colloidal particles potential for heterogeneous catalysis,
    Eurov,DA; Kirilenko,DA; Sharonova,LV; Shvidchenko,AV; Smirnov,AN; Tomkovich,MV; Yagovkina,MA; Kurdyukov,DA,
    Mater. Today Commun., v.35 ArtNo: #106047 (2023) Q2
    DOI: 10.1016/j.mtcomm.2023.106047

  6. First-principles modeling of bottom-up synthesis of carbon quantum dots,
    Boukhvalov,DW; Osipov,VYu,
    Crystals, v.13, 5 ArtNo: #716 (2023) Q2
    DOI: 10.3390/cryst13050716

  7. Graphene Amination towards Its Grafting by Antibodies for Biosensing Applications,
    Rabchinskii,MK; Besedina,NA; Brzhezinskaya,M; Stolyarova,DYu; Ryzhkov,SA; Saveliev,SD; Antonov,GA; Baidakova,MV; Pavlov,SI; Kirilenko,DA; Shvidchenko,AV; Cherviakova,PD; Brunkov,PN,
    Nanomaterials, v.13, 11, ArtNo: #1730 (2023)
    DOI: 10.3390/nano13111730

  8. Manifesting Epoxide and Hydroxyl Groups in XPS Spectra and Valence Band of Graphene Derivatives,
    Rabchinskii,MK; Shnitov,VV; Brzhezinskaya,M; Baidakova,MV; Stolyarova,DYu; Ryzhkov,SA; Saveliev,SD; Shvidchenko,AV; Nefedov,DYu; Antonenko,AO; Pavlov,SV; Kislenko,VA; Kislenko,SA; Brunkov,PN,
    Nanomaterials, v.13, 1, ArtNo: #23 (2023)
    DOI: 10.3390/nano13010023

  9. Carbonization of Biopolymers as a Method for Producing a Photosensitizing Additive for Energy Materials,
    Ilyushin,MA; Voznyakovskii,AP; Shugalei,I; Vozniakovskii,AA,
    Nanomanufacturing, v.3, 2, pp. 167-176 (2023)
    DOI: 10.3390/nanomanufacturing302001

  10. Titanium dioxide nanoparticles heavily doped with niobium: a light-induced electron paramagnetic resonance study,
    Osipov,V; Hao,D; Takai,K; Uchikoshi,T; Ogata,H; Ishigaki,T,
    Mendeleev Commun., , v. 33, pp. 349–352 (2023) Q3
    DOI: 10.1016/j.mencom.2023.04.017

  11. A comprehensive model of nitrogen-free ordered carbon quantum dots,
    Boukhvalov,DW; Osipov,VY; Hogan,BT; Baldycheva,A,
    Discover Nano, v.18, 1 ArtNo: #1 (2023)
    DOI: 10.1186/s11671-023-03773-0

  12. The role of nanoparticle charge in crystallization kinetics and ice adhesion strength for dispersions of detonation nanodiamonds,
    Emelyanenko,AM; Emelyanenko,KA; Vul,AYa; Shvidchenko,AV; Boinovich,LB,
    Chem. Chem. Phys., v. 25, 3950 (2023) Q1
    DOI: 10.1039/d2cp05144c

  13. The Effect of Few-Layer Graphene on the Complex of Hardness, Strength, and Thermo Physical Properties of Polymer Composite Materials Produced by Digital Light Processing (DLP) 3D Printing,
    Kidalov,S; Voznyakovskii,A; Vozniakovskii,A; Titova,S; Auchynnikau,Y,
    Materials, v.16(3), 1157 (2023) Q2
    DOI: 10.3390/ma16031157

  14. X-ray Excited Optical Luminescence of Eu in Diamond Crystals Synthesized at High Pressure High Temperature,
    Lebedev,VT; Shakhov,FM; Vul,AYa; Zakharov,AA; Zinoviev,VG; Orlova,VA; Fomin,EV,
    Materials, v.16(2), 830 (2023) Q2
    DOI: 10.3390/ma16020830

  15. Suspensions of manganese-grafted nanodiamonds: Preparation, NMR, and MRI study,
    Panich,AM; Salti,M; Aleksenskii,AE; Kulvelis,YV; Chizhikova,A; Vul',AYa; Shames,AI,
    Diam. Relat. Mater, v. 131, 109591 (2023) Q2
    DOI: 10.1016/j.diamond.2022.109591

  16. Size effect in electron paramagnetic resonance spectra of impurity centers in diamond particles,
    Shames,AI; Zegrya,GG; Samosvat,DM; Osipov,VYu; Vul',AYa,
    Physica E, v.146, 115523 (2023) Q2
    DOI: 10.1016/j.physe.2022.115523

  17. Pyrolysis mass-spectrometry study of detonation nanodiamonds surface chemistry,
    Yudina,EB; Romanov,PA; Chizhikova,AS; Aruev,NN,
    Fullerenes, Nanotubes and Carbon Nanostructures, v.31(1), pp. 68-74 (2023) Q3
    DOI: 10.1080.153638X.2022.2120477

Статьи в российских журналах

  1. ODMR active bright sintered detonation nanodiamonds obtained without irradiation,
    Likhachev,KV; Uchaev,MV Breev,ID; Ankudinov,AV; Babunts,RA; Baranov,PG; Kidalov,SV,
    ФТП, т. 57, вып. 2, стр. 101-106 (2023)
    DOI: 10.21883/SC.2023.02.55954.4212

  2. Influence of few-layer graphene on the complex of strength and thermophysical properties of polymer composites obtained by DLP by 3D printing,
    Vozniakovskii,AA; Kidalov,SV; Voznyakovskii,AP; Podlozhnyuk,ND; Titova,SI; Auchynnikau,EV,
    J. Adv. Mater. Technol., v.8, 2, pp. 103-110 (2023)
    DOI: 10.17277/jamt.2023.02.pp.103-110

  3. Stable hydrosol prepared by deaggregation from laser synthesis nanodiamond,
    Aleksenskii,AE; Baidakova,MV; Trofimuk,AD; Tudupova,BB; Chizhikova,AS; Shvidchenko,AV,
    Nanosyst. Phys. Chem. Math., v.14, 3, pp. 372-379 (2023)
    DOI: 10.17586/2220-8054-2023-14-3-372-379

  4. Композиционные материалы на основе эпоксидных олигомеров и графеновых нанопластин как основа защитных покрытий с улучшенным комплексом экологических параметров,
    Возняковский,АП; Неверовская,АЮ; Отвалко,ЖА; Возняковский,АА; Шугалей,ИВ,
    Экологическая химия, т.32, 1, стр. 19-27 (2023)

  5. Структуры наноалмазов с фотоактивными модификаторами,
    Лебедев,ВТ; Кульвелис,ЮВ; Сорока,МА; Кизима,ЕА; Вуль,АЯ,
    Поверхность. Рентгеновские, синхротронные и нейтронные исследования, т.1, стр. 9-19 (2023)
    DOI: 10.31857/S1028096023010156
    Structures of Nanodiamonds with Photoactive Modifiers,
    Lebedev,VT; Kulvelis,YuV; Soroka,MA; Kyzyma,OA; Vul,AYa,
    J. Surf. Invest. X-ray, v.17, 1, pp. 7-16 (2023)
    DOI: 10.1134/S1027451023010159

Труды конференций

  1. Алмазные наночастицы детонационного синтеза с поверхностью, модифицированной ионами d-элементов,
    Чижикова,АС; Юдина,ЕБ; Швидченко, АВ; Алексенский,АЕ
    Труды XXVII Международного симпозиума "Нанофизика и наноэлектроника" Т.1, С. 339-340 (2023) (Нижний Новгород, 13–16 марта 2023 г.)
  2. Получение нанокристаллической CVD алмазной пленки, легированной ионами Eu3+,
    Юдина,ЕБ; Алексенский,АА; Богданов,CА; Букалов,СС; Лейтес,ЛА; Радищев,ДБ; Вихарев,АЛ; Вуль,АЯ
    Труды XXVII Международного симпозиума "Нанофизика и наноэлектроника" Т.2, С. 812-813 (2023) (Нижний Новгород, 13–16 марта 2023 г.)

Книги

  1. Chapter 1. Modification of Detonation Nanodiamonds with Endofullerenols to Obtain Magnetic Photosensitive Structures for Theranostics,
    Lebedev,VT; Kulvelis,YuV; Vul,AYa; Peters,GS; Vovk,MA; Orlova,VA; Tropin,TV; Popova,MV; Bolshakova,OI; Fomin,EV
    В книге (сборнике): PHOTOCATALYSIS FOR ENVIRONMENTAL REMEDIATION AND ENERGY PRODUCTION Green Chem.Sustainable Technol., , стр.3-40, 2023, 483 стр., SPRINGER NATURE SWITZERLAND ISBN: 978-3-031-27706-1
    DOI: 10.1107/s1600576720013412
  2. Chapter 7. Effective X-ray Luminescent Hybrid Structures of Nanodiamonds Associated with Metal-organic Scintillators,
    Kulvelis,YuV; Yevlampieva,NP; Cherechukin,DS; Lebedev,VT; Tropin,TV; Fomin,EV; Zinovyev,VG; Vul,AYa
    В книге (сборнике): PHOTOCATALYSIS FOR ENVIRONMENTAL REMEDIATION AND ENERGY PRODUCTION Green Chem.Sustainable Technol., , стр.167-208, 2023, 483 стр., SPRINGER NATURE SWITZERLAND ISBN: 978-3-031-27706-1

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