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Name and surname:
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doc. RNDr. Erik Rakovský, PhD.
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Document type:
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Research/art/teacher profile of a person
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The name of the university:
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Comenius University Bratislava
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The seat of the university:
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Šafárikovo námestie 6, 818 06 Bratislava
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| III.a - Occupation-position | III.b - Institution | III.c - Duration |
|---|---|---|
| docent (odborný asistent, vedecký pracovník) | Univerzita Komenského v Bratislave | 1994 -present |
| IV.a - Activity description, course name, other | IV.b - Name of the institution | IV.c - Year |
|---|---|---|
| Liptovská jesenná škola o rozptyle neutrónov | Česká a slovenská kryštalografická spoločnosť | 2007 |
| Olex2 Workshop, ECM 32 Wien | ECA & OlexSys Ltd, Durham University, UK | 2019 |
| MoPro Workshop | FCHPT STU Bratislava | 2019 |
| V.1.a - Name of the profile course | V.1.b - Study programme | V.1.c - Degree | V.1.d - Field of study |
|---|---|---|---|
| Štruktúrna chémia | anorganická chémia | I.+II. | Chemistry |
| Základy štruktúrnej kryštalografie | anorganická chémia | I.+II. | Chemistry |
| Vybrané kapitoly z materiálovej chémie 1 | anorganická chémia | III. | Chemistry |
| Doktorandský seminár z anorganickej chémie 2 | anorganická chémia | III. | Chemistry |
| V.2.a - Name of the study programme | V.2.b - Degree | V.2.c - Field of study |
|---|---|---|
| anorganická chémia | I.+II. | Chemistry |
| anorganická chémia | III. | Chemistry |
| V.3.a - Name of the field of habilitation procedure and inaugural procedure | V.3.b - Study field to which it is assigned |
|---|---|
| anorganická chémia | Chemistry |
| V.5.a - Name of the course | V.5.b - Study programme | V.5.c - Degree | V.5.d - Field of study |
|---|---|---|---|
| Vybrané kapitoly z chémie prechodných prvkov | anorganická chémia | I.+II. | Chemistry |
| Metódy chemického výskumu | chémia | I. | Chemistry |
| Určovanie štruktúr organických zlúčenín | organická chémia | I.+II. | Chemistry |
| Metódy charakterizácie anorganických látok | anorganická chémia | I.+II. | Chemistry |
| Všeobecná a anorganická chémia | biológia/medicínska biológia | I. | Biology |
ADC Slavomíra Doktorovová, Joana Araújo, Marisa L. Garcia, Erik Rakovský, Eliana B. Souto: Formulating fluticasone propionate in novel PEG-containing nanostructured lipid carriers (PEG-NLC). Colloids and Surfaces B: Biointerfaces 75 (2010) 538–542.
ADC Doktorovová, S., Shegokar, R., Rakovský, E., Gonzalez-Mira, E., Lopes, C.M., Silva, A.M., Martins-Lopes, P., Muller, R.H., Souto, E.B.: Cationic solid lipid nanoparticles (cSLN): Structure, stability and DNA binding capacity correlation studies. International Journal of Pharmaceutics 420, 341–349 (2011).
ADC Kowal, K., Wysocka-Król, K., Kopaczyńska, M., Dworniczek, E., Franiczek, R., Wawrzyńska, M., Vargová, M., Zahoran, M., Rakovský, E., Kuš, P., Plesch, G., Plecenik, A., Laffir, F., Tofail, S.A.M., Podbielska, H.: In situ photoexcitation of silver-doped titania nanopowders for activity against bacteria and yeasts. Journal of Colloid and Interface Science 362 (1) 50–57 (2011).
ADC Hrobárik P., Hrobáriková V., Semak V., Kasák P., Rakovský E., Polyzos I., Fakis M., and Persephonis P.: Quadrupolar Benzobisthiazole-Cored Arylamines as Highly Efficient Two-Photon Absorbing Fluorophores. Org. Lett. 16 (2014), 6358–6361.
ADC 1 V. Kuchtanin, L. Kleščíková, M. Šoral, R. Fischer, Z. Růžičková, E. Rakovský, J. Moncoľ and P. Segľa: Nickel(II) Schiff base complexes: Synthesis, characterization and catalytic activity in Kumada–Corriu cross-coupling reactions. Polyhedron, 2016, 117, 90–96.
ADC Krištofíková, D., Mečiarová, M., Rakovský, E., Šebesta, R.: Mechanochemically Activated Asymmetric Organocatalytic Domino Mannich Reaction-Fluorination. ACS Sustainable Chemistry and Engineering 8 (38), 14417–14424 (2020).
ADC Plevová, K., Mudráková, B., Rakovský, E., Šebesta, R.: Diastereoselective Pd-Catalyzed C–H Arylation of Ferrocenylmethanamines with Arylboronic Acids or Pinacol Esters. Journal of Organic Chemistry 84 (11), 7312–7319 (2019).
ADC J. Nociarová, P. Osuský, E. Rakovský, D. Georgiou, I. Polyzos, M. Fakis and P. Hrobárik: Direct iodination of electron-deficient benzothiazoles: Rapid access to two-photon absorbing fluorophores with quadrupolar D-π-A-π-D architecture and tunable heteroaromatic core. Org. Lett., 2021, 23, 3460–3465.
ADC D. Furka, S. Furka, M. Naftaly, E. Rakovský, M. Čaplovičová and M. Janek: ZnO nanoparticles as photodegradation agent controlled by morphology and boron doping. Catal. Sci. Technol., 2021, 11, 2167–2185.
ADC T. Peňaška, V. Modrocká, K. Stankovianska, M. Mečiarová, E. Rakovský and R. Šebesta: Organocatalytic Diastereodivergent Enantioselective Formal oxa-Diels-Alder Reaction of Unsaturated Ketones with Enoates Under Liquid-Assisted Grinding Conditions. ChemSusChem, 2022, 15, e202200028.
ADC Rakovský, E. and Gyepes, R.: Butane-1,4-diammonium dihydrogendecavanadate(V). Acta Cryst. (2006). E62, m1820–m1822.
[o] Honda D, Ikegami S, Inoue T, Ozeki T., Yagasaki A.: Protonation and methylation of an Anderson-type polyoxoanion [IMo6O24]5–. Inorg. Chem. 46 (2007) 1464–1470.
ADC Rakovský, E., Žúrková, Ľ., Marek, J.: Synthesis, Crystal Structure, and IR Spectroscopic Characterization of 1,6-Hexanediammonium Dihydrogendecavanadate. Monatsh. Chem. 133 (3), 277–283 (2002).
[o] Konaka, S.; Ozawa Y.; Shonaka T. et al.: [HxTeV9O28](5–x)– (x = 1 and 2): Vanadotellurates with Decavanadate Structure. Inorg. Chem. 50 (13), 6183–6188 (2011).
ADC Lenka Klištincová, Erik Rakovský, Peter Schwendt, Gustav Plesch and R. Gyepes: Synthesis, structure and characterization of (NH4)2[Cu2(H2O)4(NH3CH2COO)2(NH2CH2COO)2]H2V10O28·6H2O. Inorg. Chem. Commun. 13 (2010) 1275–1277.
[o] Sánchez-Lombardo, I., Baruah, B., Alvarez, S., Werst, K.R., Segaline, N.A., Levinger, N.E., Crans, D.C.: Size and shape trump charge in interactions of oxovanadates with self-assembled interfaces: Application of continuous shape measure analysis to the decavanadate anion. New Journal of Chemistry 40 (2), 962–975 (2016).
ADC Klištincová L., Rakovský E., Schwendt P.: Decavanadate ion as bridging ligand. Synthesis and crystal structure of (NH4)2[Cu2(NH3CH2CH2COO)4(V10O28)] . 10 H2O. Inorg. Chem. Commun. 11 (2008) 1140–1142.
[o] Dolbecq A, Dumas E, Mayer CR, et al.: Hybrid Organic-Inorganic Polyoxometalate Compounds: From Structural Diversity to Applications. Chem. Rev. 110(10), 6009–6048 (2010).
ADC Klištincová L., Rakovský E., Schwendt P.: Decavanadate ion as bridging ligand. Synthesis and crystal structure of (NH4)2[Cu2(NH3CH2CH2COO)4(V10O28)] . 10 H2O. Inorg. Chem. Commun. 11 (2008) 1140–1142.
[o] p) Iturrospe, A., Artetxe, B., Reinoso, S., San Felices, L., Vitoria, P., Lezama, L., Gutiérrez-Zorrilla, J.M.: Copper(II) complexes of tetradentate pyridyl ligands supported on keggin polyoxometalates: Single-crystal to single-crystal transformations promoted by reversible dehydration processes. Inorganic Chemistry 52(6), 3084–3093 (2013).
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Riešiteľ: APVV-21-0503 Nízkomolekulárne luminiscenčné senzory a fotosenzibilizátory pre dvojfotónovo excitované biozobrazovanie, fotodynamickú terapiu a protiinfekčnú liečbu (2022-)
Riešiteľ: VEGA 2/0019/19 Účinky prírodných a syntetických zlúčenín pri oxidačnom poškodení biomakromolekúl. Pro- a antioxidačnémechanizmy. (2021-)
Riešiteľ: VEGA 1/0507/17 Zlúčeniny vanádu v katalýze a materiálovej chémii: interakcia experimentu a teórie. (2017-2020)