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Acknowledgements
The research within project No. VEKOP-2.3.2-16-2017-00013
and GINOP-2.2.1-15-2017-00084 was supported by the Euro-
pean Union and the State of Hungary, co-nanced by the
European Regional Development Fund. N. V. M. and P. B. are
grateful for the Hungarian Scientic Research Found (K-124544
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7 (a) L. Kotai, I. Gacs, I. E. Sajo, P. K. Sharma and K. K. Banerji,
Trends Inorg. Chem., 2009, 11, 25–104; (b) L. Kotai, J. Fodor,
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Gy. Argay and K. K. Banerji, Transition Met. Chem., 2006,
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and K-115762). I. M. Szilagyi thanks for a Janos Bolyai Research
´
Fellowship of the Hungarian Academy of Sciences and a UNKP-
18-4-BME-238 grant supported by the New National Excellence
Program of the Ministry of Human Capacities, Hungary. An
NRDI K 124212 and an NRDI TNN_16 123631 grants are
acknowledged. The research reported in this paper was sup-
ported by the Higher Education Excellence Program of the
Ministry of Human Capacities in the frame of Nanotechnology
and Materials Science Research Area of Budapest University of
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8 I. E. Sajo, G. B. Kovacs, T. Pasinszki, P. A. Bombicz, Z. May,
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Domus Hungarica Grant for the research support.
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