■■国内外学会・研究会における成果発表■ーション法で製造したナノ材料に関するレビュー論文■■■など一連の研究を加速させることができ、心より感謝します。また、水素発生用材料■■■■■■■、生物医学応用材料■■■■■■、光触媒■■■、フォトニクス■■■■■、ナノ粒子■マトリクス材料■■ ■など、他の材料に関する共同研究も一部サポートした。■nanoparticles for − 287 −した液中レーザーアブレーション法により作製した銀ナノ粒子の特徴,第26回若手研究者討論会,関東学院大学 小田原キャンパス, 2019.12.06. [a-3] M. Shinoda, S. Iwamori, S.A. Kulinich, “Titanium dioxide nanomaterials prepared by laser processing in liquid phase and their photocatalytic activity toward methylene blue”, Annual Meeting of the Materials Science Society of Japan, Tokyo, July 16-17, 2020. [1] N. Mintcheva, P. Srinivasan, J.B.B. Rayappan, A.A. Kuchmizhak, S. Gurbatov, S.A. Kulinich, Room-temperature gas sensing of laser-modified anatase TiO2 decorated with Au nanoparticles. // Applied Surface Science 507 (2020) 145169. [2] P. Shankar, M.Q.H. Ishak, J.K. Padarti, N. Mintcheva, S. Iwamori, S.O. Gurbatov, J.H. Lee, S.A. Kulinich, ZnO@graphene oxide core@shell nanoparticles prepared via one-pot approach based on laser ablation in water. // Applied Surface Science 531 (2020) 147365. [3] N. Mintcheva, S. Yamaguchi, S.A. Kulinich, Hybrid TiO2-ZnO nanomaterials prepared by laser ablation in liquid method. // Materials 13 (2020) 719. [4] S.O. Gurbatov, E. Modin, V. Puzikov, P. Tonkaev, D. Storozhenko, A. Sergeev, N. Mintcheva, S. Yamaguchi, N. Tarasenka, A. Chivilin, S. Makarov, S.A. Kulinich, A.A. Kuchmizhak, Black Au-decorated TiO2 produced via laser ablation in liquid. // ACS Applied Materials & Interfaces 13 (2021) 6522-6531. [5] A.V. Shabalina, V.A. Svetlichnyi, S.A. Kulinich, Green laser ablation-based synthesis of functional nanomaterials for generation, storage and detection of hydrogen. // Current Opinion in Green and Sustainable Chemistry 33 (2022) 100566. [6] S. Gurbatov, V. Puzikov, E. Modin, A. Shevlyagin, A. Gerasimenko, E. Mitsai, S.A. Kulinich, A. Kuchmizhak, Ag-decorated Si nanospheres produced by laser ablation in liquid: All-in-one temperature-feedback SERS-based platform for nanosensing. // Materials 15 (2022) 8091. [7] M.Q.H. Ishak, P. Shankar, M.E. Turabayev, T. Kondo, M. Honda, S.O. Gurbatov, Y. Okamura, S. Iwamori, S.A. Kulinich, Biodegradable polymer nanosheets incorporated with Zn-containing biomedical applications. // Materials 15 (2022) 8101. [8] A.V. Shabalina, A.G. Golubovskaya, E.D. Fakhrutdinova, S.A. Kulinich, O.V. Vodyankina, V.A. Svetlichnyi, Phase and structural thermal evolution of Bi-Si-O catalysts obtained via laser ablation. // Nanomaterials 12 (2022) 4101. [9] M. Valakh, A.P. Litvinchuk, Y. Havryliuk, V. Yukhymchuk, V. Dzhagan, D. Solonenko, S.A. Kulinich, L. Piskach, Y. Kogut, L. He, D.R.T. Zahn, Raman- and [10] L.J. Kong, X.Z. Hu, C.Q. Cheng, S.A. Kulinich, X.W. Du, Surface-dependent hydrogen evolution activity of copper foil. // Materials 16 (2023) 1777. [11] S.G. Anikeev, M.I. Kaftaranova, V.N. Hodorenko , S.D. Ivanov, N.V. Artyukhova, A.V. Shabalina, S.A. Kulinich, G.V. Slizovsky, A.V. Mokshin, V.E. Gunther, TiNi-based material with shape memory effect for surgical treatment of diseases of small intestine in newborn and young children. // Journal of Functional Biomaterials 14 (2023) 155. [12] I.A. Ditenberg, I.V. Smirnov, K.V. Grinyaev, A.N. Tyumentsev, V.M. Chernov, M.M. Potapenko, S.A. Kulinich, Increasing the thermal stability and high-temperature strength of vanadium alloys by strengthening with nanosized non-metallic particles. // Materials 16 (2023) 2430. [13] N. Mintcheva, D.K. Subbiah, M.E. Turabayev, S.O. Gurbatov, J.B.B. Rayappan, A.A. Kuchmizhak, S.A. Kulinich, Gas sensing of laser-produced hybrid TiO2-ZnO nanomaterials under room-temperature conditions. // Nanomaterials 13 (2023) 670. [14] L.J. Kong, Y.M. Xie, X.Y. Chen, C. Xi, F.F. Zhang, M. Wang, L. Shang, Y. Huang, X.W. Du, S.A. Kulinich, Ag-doped Cu nanosheet arrays for efficient hydrogen evolution reaction. // Chemical Communications 59 (2023) 6533-6535. [a-1] S.A. Kulinich, “Semiconductor nanomaterials prepared by laser processing in liquid and thier photocatalytic performance”. Technical University of Denmark (DTU) - Tokai University Joint Symposium, Hiratsuka (Kanagawa), November 7, 2019. [a-2] 宮崎凌介,クリニッチセルゲイ, 岩森暁, 抗菌特性を有するポリ乳酸ナノシートの開発を目的と[a-4] T. Dikova, S.A. Kulinich, S. Iwamori, S. Yamaguchi, “Optimization of for texturing of titanium surfaces with picosecond laser”, Conference and School on Quantum Electronics: Laser Physics and Applications, Varna (Bulgaria), September 21-25, 2020. infrared-active phonons AgGaGeS4. // Crystals 13 (2023) 148. in nonlinear semiconductor technological parameters 成果論文
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