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1. Samarin Aleksandr Sh, Trussov Ivan A., Pchelkina Zlata V., Fedotov Stanislav S., Ovchenkov Yevgeniy A., Zhurenko Sergei V., Tkachev Alexei V., Gippius Andrei A., Shvanskaya Larisa V., Vasiliev Alexander N.
   Lamellar Crystal Structure and Haldane Magnetism in NH4VPO4OH , vol. 63, N3, (2024)
2. Ovchenkov Y.A., Chareev D.A., Gippius A.A., Presnov D.E., Puzanova I.G., Tkachev A.V., Volkova O.S., Zhurenko S.V., Vasiliev A.N.
   Peculiarities of the Nematic Transition in FeSe0.675Te0.3S0.025 and Its Proximity to the Quantum Critical Point , (2024)

1. Kravchenko E.A., Gippius A.A., Tkachev A.V., Zhurenko S.V., Golubev A.V., Kubasov A.S., Selivanov N.A., Buzanov G.A., Bykov A.Yu, Zhizhin K.Yu, Kuznetsov N.T.
   Non-covalent Cl⋯X interactions in several silver compounds based on [B12Cl12]2− clusters: 35Cl NQR and X-ray diffraction , vol. 544, p. 121231, (2023)
2. Gippius A.A., Tkachev A.V., Zhurenko S.V., Gunbin A.V., Demikhov E.I., Kuo C.N., Lue C.S., Nguyen N.Q., Luo C.W., Khrustalev V.N., Svetogorov R.D., Likhanov M.S., Shevelkov A.V.
   Pseudo-gap in RuGa3: A microscopic point of view , vol. 938, p. 168522, (2023)
3. Gervits N.E., Tkachev A.V., Zhurenko S.V., Gunbin A.V., Bogach A.V., Lomanova N.A., Danilovich D.P., Pavlov I.S., Vasiliev A.L., Gippius A.A.
   The size effect of BiFeO3 nanocrystals on the spatial spin modulated structure , vol. 25, N37, pp. 25526-25536, (2023)
4. Gippius A.A., Gunbin A.V., Tkachev A.V., Zhurenko S.V., Fazlizhanova D.I., Kuzmichev S.A., Kuzmicheva T.E., Verchenko V.Yu, Shevelkov A.V.
   Inherent surface superconducting phase in the Mo8Ga41 single-gap bulk superconductor as seen by nuclear resonance and tunneling spectroscopy , vol. 163, p. 108063, (2023)

1. Gervits N.E., Tkachev A.V., Zhurenko S.V., Gunbin A.V., Pokatilov V.S., Gippius A.A.
   Zero-field 57Fe NMR in BiFeO3 based compounds: Problems, solutions and application to Bi1-xSrxFeO3 Solid State Communications, vol. 344, p. 114682, (2022)
2. Загорский Д.Л., Долуденко И.М., Хайбуллин Р.И., Чупраков С.А., Гиппиус А.А., Журенко С.В., Ткачёв А.В., Черкасов Д.А., Жигалина О.М., Хмеленин Д.Н., Каневский В.М., Муслимов А.Э., Панов Д.В., Блинов И.В.
   Особенности синтеза, структура, магнитометрия и ЯМР-спектроскопия нанопроволок различных типов ФТТ, т. 64, N9, стр. 1153-1161, (2022)
3. Gippius A.A., Gunbin A.V., Iarygina D.A., Tkachev A.V., Zhurenko S.V., Verchenko V.Yu, Plenkin D.S., Shevelkov A.V.
   Microscopic properties of Mo4Ga20Sb intermetallic superconductor in normal and superconducting states as evidenced by NMR and NQR spectroscopy , vol. 927, p. 166970, (2022)
4. Gervits N.E., Tkachev A.V., Zhurenko S.V., Gunbin A.V., Gippius A.A., Makarova A.O., Pokatilov V.S.
   Emergence of collinear magnetic structure in Tb-doped BiFeO3 , vol. 563, p. 170031, (2022)

1. Pokatilov V.S., Makarova A.O., Gippius A.A., Tkachev A.V., Zhurenko S.V., Bagdinova A.N., Gervits N.E.
   Evolution of spatial spin-modulated structure with La doping in Bi1-yLayFeO3 multiferroics , vol. 517, p. 167341, (2021)
2. Журенко С.В., Ткачёв А.В., Гунбин А.В., Гиппиус А.А.
   МОДЕРНИЗАЦИЯ СПЕКТРОМЕТРОВ ЯДЕРНОГО МАГНИТНОГО РЕЗОНАНСА BRUKER НА СОВРЕМЕННОЙ ЦИФРОВОЙ БАЗЕ Приборы и техника эксперимента, N3, стр. 88-94, (2021)
3. Golubev Aleksei V., Kubasov Alexey S., Bykov Alexander Yu, Zhizhin Konstantin Yu, Kravchenko Eleonora A., Gippius Andrei A., Zhurenko Sergey V., Semenova Veronica A., Korlyukov Alexander A., Kuznetsov Nikolay T.
   Synthesis of perchlorinated sulfonium derivatives of closo-decaborate anion [2-B10Cl9SR2]− (R = i-C3H7, n-C3H7, n-C4H9, n-C8H17, n-C12H25, n-C18H37, CH2Ph, and cyclo-S(CH2)4) , vol. 60, N12, pp. 8592 - 8604, (2021)
4. Kravchenko E.A., Gippius A.A., Zhurenko S.V., Tkachev A.V., Semenova V.A., Golubev A.V., Kubasov A.S., Bykov A.Yu, Buzanov G.A., Zhizhin K.Yu, Kuznetsov N.T.
   Noncovalent interactions in perchlorinated sulfonium and ammonium derivatives of closo-decaborate anion: 35Cl NQR and crystal structure , vol. 210, p. 115514, (2021)

1. Бержанский В.Н., Гиппиус А.А., Горбованов А.И., Журенко С.В., Полулях С.Н.
   Вторичные сигналы ядерного спинового эха в тонких пленках железо-иттриевого феррит-граната ЖЭТФ, т. 157, N1, стр. 118-125, (2020)
2. Kozlova T.O., Mironov A.V., Istomin S.Y., Birichevskaya K.V., Gippius A.A., Zhurenko S.V., Shatalova T.B., Baranchikov A.E., Ivanov V.K.
   Meet the Cerium(IV) Phosphate Sisters: CeIV(OH)PO4 and CeIV2O(PO4)2 , vol. 26, N53, pp. 1288 - 12193, (2020)
3. Likhanov Maxim S., Verchenko Valeriy Yu, Gippius Andrei A., Zhurenko Sergei V., Tkachev Alexey V., Wei Zheng, Dikarev Evgeny V., Kuznetsov Alexey N., Shevelkov Andrei V.
   Electron-Precise Semiconducting ReGa2Ge: Extending the IrIn3 Structure Type to Group 7 of the Periodic Table , vol. 59, N17, pp. 12748 - 12757, (2020)
4. Gippius A.A., Tkachev A.V., Zhurenko S.V., Mahajan A.V., Büttgen N., Schaedler M., Chernyavskii I.O., Morozov I.V., Aswartham S., Büchner B., Moskvin A.S.
   NMR study of magnetic structure and hyperfine interactions in the binary helimagnet FeP Phys. Rev. B, vol. 102, N21, p. 214416, (2020)

1. Shekunova T.O., Istomin S.Ya, Mironov A.V., Baranchikov A.E., Yapryntsev A.D., Galstyan A.A., Simonenko N.P., Gippius A.A., Zhurenko S.V., Shatalova T.B., Skogareva L.S., Ivanov V.K.
   Crystallization Pathways of Cerium(IV) Phosphates Under Hydrothermal Conditions: A Search for New Phases with a Tunnel Structure , (2019)
   аннотация

   
   Hydrothermal crystallization pathways of amorphousceric phosphate gels were found to be determined by ammonia concentration in a reaction medium. This allows forhighlyselective hydrothermal synthesis of various finely crystalline ceric phosphates,including Ce(PO4)(HPO4)0.5(H2O)0.5, (NH4)2Ce(PO4)2(H2O) andpreviously unknown NH4Ce2(PO4)3. The structure of the latter compound was solvedfrom powder X-ray diffraction data. It appeared to be isostructural to ammonium thorium phosphate, NH4Th2(PO4)3; in this crystal structure, large channels (5.07 -3.79 Å) located along the c-axis are occupied by NH4+ions
   
2. Andrei V.Churakov, Alexander A.Vinokurov, Konstantin O.Znamekov, Natalia E.Mordvinova, Andrei A.Gippius, Sergei V.Zhurenko, Michael Baenitz, Sergey Ya.Istomin
   In(CH3COO)3: The first example of group 13 elements triacetate with an infinite chain crystal structure , vol. 160, pp. 42-45, (2019)
3. Гиппиус A.A., Журенко С.В., Buttgen N., Schadler M., Морозов И.В., Москвин А.С.
   ЯМР-исследование магнитной структуры и сверхтонких взаимодействий в бинарном гелимагнетике FeP , т. 61, N5, стр. 836-840, (2019)
4. Likhanov Maxim S., Khalaniya Roman A., Verchenko Valeriy Yu, Gippius Andrei A., Zhurenko Sergei V., Tkachev Alexey V., Fazlizhanova Dina I., Kuznetsov Alexey N., Shevelkov Andrei V.
   ReGaGe2: an intermetallic compound with semiconducting properties and localized bonding , vol. 55, N41, pp. 5821-5824, (2019)
5. Gippius A.A., Zhurenko S.V., Büttgen N., Schädler M., Morozov I.V., Moskvin A.S.
   NMR Analysis of the Magnetic Structure and Hyperfine Interactions in a FeP Binary Helimagnetic , vol. 61, N5, pp. 723-727, (2019)
6. Likhanov Maxim S., Zhupanov Vladislav O., Verchenko Valeriy Yu, Gippius Andrei A., Zhurenko Sergei V., Tkachev Alexey V., Fazlizhanova Dina I., Berthebaud David, Shevelkov Andrei V.
   Synthesis, extended and local crystal structure, and thermoelectric properties of Fe1-xRexGa3 solid solution , vol. 804, pp. 331-338, (2019)
7. Koshelev Anatolii Vladimirovich, Zvereva Elena A., Shvanskaya Larisa Victorovna, Volkova Olga Sergeevna, Abdel-Hafiez Mahmoud, Gippius Andrei A., Zhurenko Sergey V., Tkachev Alexey V., Chareev Dmitriy A., Büttgen Norbert, Schaedler Martina, Iqbal Asif, Ra
   Short-Range and Long-Range Order in AFM – FM Exchange Coupled Compound LiCu2(VO4)(OH)2 , vol. 123, N29, pp. 17933 - 17942, (2019)

1. Verchenko V.Yu, Tsirlin A.A., Kasinathan D., Zhurenko S.V., Gippius A.A., Shevelkov A.V.
   «Antiferromagnetic ground state in the MnGa4 intermetallic compound» , vol. 2, N4, (2018)
   аннотация

   
   Physical Review Materials
   
2. Churakov Andrei V., Vinokurov Alexander A., Znamekov Konstantin O., Mordvinova Natalia E., Gippius Andrei A., Zhurenko Sergei V., Michael Baenitz, Istomin Sergey Ya
   Crystal structure and magnetic properties of intermetallic semiconductor FeGa3 lightly doped by Co and Ni , (2018)
   аннотация

   
   We have explored the crystal structure and magnetic properties of two intermetallic solid solutions of the IrIn3 structure type. Although Fe0.95Co0.05Ga3 and Fe0.975Ni0.025Ga3 are isomorphous and possess exactly the same concentration of valence electrons, they display noticeable differences in their crystal structure associated with a different nature of the Fesingle bondCo and Fesingle bondNi dumbbells. The former contains an odd number of electrons compared to an even number of the latter dumbbell. Responding to localized spins of the Fesingle bondCo dumbbells, the 69Ga NQR relaxation rate in Fe0.95Co0.05Ga3 is governed by temperature independent spin-lattice relaxation typical for diluted paramagnetic centers at low temperatures. In Fe0.975Ni0.025Ga3 with zero magnetic moment of the dumbbells the 69Ga spin-lattice relaxation rate is strongly reduced and in-gap states in the energy gap show up as a broad maximum near 70 K.
   
3. Gippius A.A., Zhurenko S.V., Hu R., Petrovic C., Baenitz M.
   Sb121,123 nuclear quadrupole resonance as a microscopic probe in the Te-doped correlated semimetal FeSb2 : Emergence of electronic Griffith phase, magnetism, and metallic behavior Phys. Rev. B, (2018)
   аннотация

   
   121,123Sb nuclear quadrupole resonance (NQR) was applied to Fe(Sb1−xTex )2 in the low doping regime (x = 0, 0.01, and 0.05) as a microscopic zero field probe to study the evolution of 3d magnetism and the emergence of metallic behavior. Whereas the NQR spectra itself reflects the degree of local disorder via the width of the individual NQR lines, the spin lattice relaxation rate (SLRR) 1/T1(T ) probes the fluctuations at the Sb site. The fluctuations originate either from conduction electrons or from magnetic moments. In contrast to the semimetal FeSb2 with a clear signature of the charge and spin gap formation in 1/T1(T )T [∼ exp /(kBT )], the 1% Te-doped system exhibits almost metallic conductivity and the SLRR nicely confirms that the gap is almost filled. A weak divergence of the SLRR coefficient 1/T1(T )T ∼ T −n ∼ T −0.2 points towards the presence of electronic correlations towards low temperatures. This is supported by the electronic specific heat coefficient γ = (Cel/T ) showing a power-law divergence γ (T ) ∼ T −m ∼ (1/T1T ) 1/2 ∼ T −n/2 ∼ Cel/T which is expected in the renormalized Landau Fermi liquid theory for correlated electrons. In contrast to that the 5% Te-doped sample exhibits a much larger divergence in the SLRR coefficient showing 1/T1(T )T ∼ T −0.72. According to the specific heat divergence a power law with n = 2m = 0.56 is expected for the SLRR. This dissimilarity originates from admixed critical magnetic fluctuations in the vicinity of antiferromagnetic long range order with 1/T1(T )T ∼ T −3/4 behavior. Furthermore Te-doped FeSb2 as a disordered paramagnetic metal might be a platform for the electronic Griffith phase scenario. NQR evidences a substantial asymmetric broadening of the 121,123Sb NQR spectrum for the 5% sample. This has a predominant electronic origin in agreement with the electronic Griffith phase and stems probably from an enhanced Sb-Te bond polarization and electronic density shift towards the Te atom inside Sb-Te dumbbell.