Впровадження наночастинок у кристали неорганічних солей (огляд)
DOI:
https://doi.org/10.15330/pcss.17.3.386-395Ключові слова:
наночастинки, квантові точки, неорганічні матриціАнотація
У огляді систематизовано літературні відомості про впровадження наночастинок у макрокристали неорганічних солей, зокрема, галогеніди лужних металів, калій дигідрофосфату та ін. Узагальнено методики отримання композитних кристалів сіль:наночастинки, їх властивості та практичне застосування.
Посилання
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[3] W. Wang, L. M. Huang, M. J. Lin, K. Y. Yang, Materials Science Forum, 663-665, 235 (2011).
[4] L. A. Padilha, A. A. R. Neves, C. L. Cesar, L. C. Barbosa, C. H. Brito Cruz, Applied Physics Letters 85(15), 3256 (2004).
[5] Marcus Mu?ller, Martin Kaiser, Gordon M Stachowski, Ute Resch-Genger, Nikolai Gaponik, Alexander Eychmu?ller, Chem. Mater., 26(10), 3231 (2014).
[6] M. Adam, R. Tietze, N. Gaponik, A. Eychmüller, Z. Phys. Chem. 229(1–2), 109 (2015).
[7] S. Kalytchuk, O. Zhovtiuk, A. Rogach, Appl. Phys. Lett. 103(10), 103105 (2013).
[8] T. Otto, M. Müller, P. Mundra, V. Lesnyak, H. V. Demir, N. Gaponik, A. Eychmüller, Nano Lett. 12(10), 5348 (2012).
[9] M. Adam, Z. Wang, A. Dubavik, G.Stachowski, C. Meerbach, Z. Soran-Erdem, C. Rengers, H. Volkan Demir, N. Gaponik, A. Eychmüller, Adv. Funct. Mater. 25(18), 2638 (2015).
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[13] Y. Chang, X. Yao, L. Mi, G. Li, S. Wang, H. Wang, Z. Zhang, Y. Jiang, Green Chem. 17(8), 4439 (2015).
[14] A. Bensouici, J. L. Plaza, E. Diéguez , O. Halimi, B. Boudine, S. Addala, L. Guerbous, M. Sebais, Journal of Luminescence 129(9), 948 (2009).
[15] B. Boudine, M. Sebais, O. Halimi, R. Mouras, A. Boudrioua, P. Bourson, Optical Materials 25(4), 373 (2004).
[16] O.V. Mary Sheeja, C.K. Mahadevan, International Journal of Research in Engineering and Technology 02(12), 738 (2013).
[17] O.V. Mary Sheeja, C. K. Mahadevan, Int. Journal of Engineering Research and Applications, 4(1) (Version 2), 55 (2014).
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[22] V. Gayvoronsky, V. Starkov, M. Kopylovsky, M. Brodyn, E. Vishnyakov, A. Boyarchuk, I. Pritula, Ukrainian Journal of Physics 55(8), 875 (2010).
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[24] V. Grachev, I. Vrable, G. Malovichko, I. Pritula, O. Bezkrovnaya, A. Kosinova, V. Yatsyna, V. Gayvoronsky, J. Appl. Phys. 112(1), 014315 (2012).
[25] V. Gayvoronsky, M. Kopylovsky, V. Yatsyna, A. Rostotsky, М. Brodyn, I. Pritula, Ukrainian Journal of Physics 57(2), 159 (2012).
[26] V. Gayvoronsky, M. Kopylovsky, V. Yatsyna, A. Popov, A. Kosinova, I. Pritula, Functional Materials 19(1), 54 (2012).
[27] O. Fesenko, L. Yatsenko, M. Brodin, Nanomaterials Imaging Techniques, Surface Studies, and Applications (Springer New York, New York, 2013).
[28] Y. Chang, X. Yao, Z. Zhang, D. Jiang, Y. Yu, L. Mi, H. Wang, G. Li, D. Yu, Y. Jiang, J. Mater. Chem. C 3(12), 2831 (2015).
[29] J. Anitha Hudson, C.K. Mahadevan, C.M. Padma, Int. Journal of Engineering Research and Applications 4(1) (Version 2), 257 (2014).
