UCM
Research/art/teacher profile of a person
Name and surname:
 doc. RNDr. Cyril Rajnák, PhD.
Email:
 cyril.rajnak@ucm.sk
Homepage:
 http:\\
Fakulta/Univerzita:
FPV UCM - Faculty of Natural Sciences
Pracovisko:
UCHEV - Ústav chémie a environmentálných vied

I. - Basic information

I.1 - Surname
Rajnák
I.2 - Name
Cyril
I.3 - Degrees
Assoc. prof. RNDr. PhD.
I.4 - Year of birth
1985
I.5 - Name of the workplace
University of Ss. Cyril and Methodius in Trnava
I.6 - Address of the workplace
Nám. J. Herdu 2, 91701 Trnava, Slovakia
I.7 - Position
professor
I.8 - E-mail address
cyril.rajnak@ucm.sk
I.9 - Hyperlink to the entry of a person in the Register of university staff
https://www.portalvs.sk/regzam/detail/22804
I.10 - Name of the study field in which a person works at the university
Chemistry
I.11 - ORCID iD
0000-0003-2173-6220

II. - Higher education and further qualification growth

II.1 - First degree of higher education
II.2 - Second degree of higher education
II.a - Name of the university or institution
University of Ss. Cyril and Methodius in Trnava
II.b - Year
2009
II.c - Study field and programme
Chemistry
II.3 - Third degree of higher education
II.a - Name of the university or institution
University of Ss. Cyril and Methodius in Trnava
II.b - Year
2014
II.c - Study field and programme
Applied analytical and bioanalytical chemistry
II.4 - Associate professor
II.a - Name of the university or institution
University of Ss. Cyril and Methodius in Trnava
II.b - Year
2020
II.c - Study field and programme
Analytical chemistry
II.5 - Professor
II.6 - Doctor of Science (DrSc.)

III. - Current and previous employment

III.a - Occupation-position III.b - Institution III.c - Duration
Assistant professor University of Ss. Cyril and Methodius in Trnava 2014-2020
Associate professor University of Ss. Cyril and Methodius in Trnava 2021-2024
Professor University of Ss. Cyril and Methodius in Trnava 2025-

IV. - Development of pedagogical, professional, language, digital and other skills

IV.a - Activity description, course name, other IV.b - Name of the institution IV.c - Year
Traninig course Erasmus + (spectroscopic techniques) Leibniz University Hannover 21.11.2022-26.11.2022
Traninig course Erasmus + (spectroscopic techniques) Leibniz University Hannover 20.03.2023-25.03.2023
Postdoc intership (NŠP SAIA) Leibniz University Hannover 2021
Postdoc intership (NŠP SAIA) Leibniz University Hannover 2022
Postdoc intership (NŠP SAIA) Leibniz University Hannover 2023
Traninig course Erasmus + (spectroscopic techniques) Leibniz University Hannover 11.09.2023-16.09.2023
Traninig course Erasmus + (spectroscopic techniques) Leibniz University Hannover 29.11.2023-01.12.2023
Traninig course Erasmus + (spectroscopic techniques) Leibniz University Hannover 26.02.2024-02.03.2024
Traninig course Erasmus + International University of California San Diego 09.04.2024-17.04.2024
Traninig course Erasmus + (spectroscopic techniques) Leibniz University Hannover 27.05.2024-31.05.2024
Traninig course Erasmus + International University of California San Diego 21.10.2024-01.11.2024
Traninig course Erasmus + (spectroscopic techniques) Leibniz University Hannover 24.11.2024-01.12.2024
Traninig course Erasmus + (magnetometry) Leibniz University Hannover 09.03.2025-15.03.2025

V. - Overview of activities within the teaching career at the university

V.1 - Overview of the profile courses taught in the current academic year according to study programmes
V.1.a - Name of the profile course V.1.b - Study programme V.1.c - Degree V.1.d - Field of study
Inorganic Chemistry chemistry CH-BcD20 I 4.1.14 Chemistry
V.2 - Overview of the responsibility for the delivery, development and quality assurance of the study programme or its part at the university in the current academic year
V.2.a - Name of the study programme V.2.b - Degree V.2.c - Field of study
chemistry CH-BcD20 I 17. Chemistry
applied analytical and bioanalytical chemistry ABCH-DoD15- member of the union commission III 17. Chemistry
V.3 - Overview of the responsibility for the development and quality of the field of habilitation procedure and inaugural procedure in the current academic year
V.3.a - Name of the field of habilitation procedure and inaugural procedure V.3.b - Study field to which it is assigned
Analytical chemistry 17. Chemistry
V.4 - Overview of supervised final theses
V.4.1 - Number of currently supervised theses
V.4.a - Bachelor's (first degree)
1
V.4.b - Diploma (second degree)
1
V.4.c - Dissertation (third degree)
3
V.4.2 - Number of defended theses
V.4.a - Bachelor's (first degree)
11
V.4.b - Diploma (second degree)
6
V.4.c - Dissertation (third degree)
2
V.5 - Overview of other courses taught in the current academic year according to study programmes
V.5.a - Name of the course V.5.b - Study programme V.5.c - Degree V.5.d - Field of study
Laboratory exercises in general chemistry KCH/bd243/21L chemistry CH-BcD20 I 17. Chemistry
Laboratory exercises in inorganic chemistry KCH/bd248/21 L chemistry CH-BcD20 I 17. Chemistry
Modern methods of synthesis KCH/md260/21 P applied chemistry ACH-MgD15 II 17. Chemistry
Chemistry of coordination compounds KCH/md255/21 P applied chemistry ACH-MgD15 II 17. Chemistry
Chemistry of coordination compounds KCH/md255/21 S applied chemistry ACH-MgD15 II 17. Chemistry
Laboratory exercises in applied chemistry II KCH/md273/21 L applied chemistry ACH-MgD15 II 17. Chemistry
Modern methods of synthesis KCH/md260/21 S applied chemistry ACH-MgD15 II 17. Chemistry
Bachelor's project KCH/bd271/21 L chemistry CH-BcD20 I 17. Chemistry
Basics of chemical compounds synthesis KCH/bd316/21 P chemistry CH-BcD20 I 17. Chemistry
Basics of chemical compounds synthesis KCH/bd316/21 S chemistry CH-BcD20 I 17. Chemistry
Inorganic chemistry KCH/bd247/21 P chemistry CH-BcD20 I 17. Chemistry
Inorganic chemistry KCH/bd311/21 P Applied analytical chemistry I 17. Chemistry
Inorganic chemistry KCH/bd284/21 P biotechnology I Biotechnology
Laboratory exercise for semester work II KCH/md261/21 L applied chemistry ACH-MgD15 II 17. Chemistry

VI. - Overview of the research/artistic/other outputs

VI.1 - Overview of the research/artistic/other outputs and the corresponding citations
VI.1.1 - Number of the research/artistic/other outputs
VI.1.a - Overall
122
VI.1.b - Over the last six years
72
VI.1.2 - Number of the research/artistic/other outputs registered in the Web of Science or Scopus databases
VI.1.a - Overall
75
VI.1.b - Over the last six years
41
VI.1.3 - Number of citations corresponding to the research/artistic/other outputs
VI.1.a - Overall
1363
VI.1.b - Over the last six years
890
VI.1.4 - Number of citations registered in the Web of Science or Scopus databases
VI.1.a - Overall
1363
VI.1.b - Over the last six years
890
VI.1.5 - Number of invited lectures at the international, national level
VI.1.a - Overall
3
VI.1.b - Over the last six years
3
VI.2 - The most significant research/artistic/other outputs

D. Lomjanský, J. Moncol, C. Rajnák, J. Titiš, R. Boča, Chemical Communications, 53 (2017), 6930-6932. Field effects to slow magnetic relaxation in a mononuclear Ni(II) complex.

OHLASY: 22

poznámka: bez autocitácii

C. Rajnák, F. Varga, J. Titiš, J. Moncoľ, R. Boča, Inorganic Chemistry 57 (2018) 4352-4358. Octahedral–tetrahedral systems [Co(dppmO,O)3]2+[CoX4]2– showing slow magnetic relaxation with two relaxation modes. 

OHLASY: 14

poznámka: bez autocitácii

C. Rajnák, J. Titiš, J. Moncoľ, F. Renz, R. Boča, Inorganic Chemistry 2017 (2017) 1520-1525. Field-Supported Slow Magnetic Relaxation in Hexacoordinate CoII Complexes with Easy Plane.

OHLASY: 22

poznámka: bez autocitácii

C. Rajnák, F. Varga, J. Titiš, J. Moncoľ, R. Boča, European Journal of Inorganic Chemistry 2017 (2017) 1915-1922. Field-supported single-molecule magnets of type [Co(bzimpy)X2].

OHLASY: 18

poznámka: bez autocitácii

R. Boča, C. Rajnák, J. Titiš, D. Valigura, Inorganic Chemistry 56 (2017) 1478-1482. Field Supported Slow Magnetic Relaxation in a Mononuclear Cu(II) Complex.

OHLASY: 88

poznámka: bez autocitácii

VI.3 - The most significant research/artistic/other outputs over the last six years

K. Choroba, J. Palion-Gazda, B. Machura, A. Bieńko, D. Wojtala, D. Bieńko, C. Rajnák, R. Boča, A. Ozarowski, M. Ozerov. Inorganic Chemistry, 63 (2024) 1068-1082. Large Magnetic Anisotropy in Mono- and Binuclear cobalt(II) Complexes: The Role of the Distortion of the Coordination Sphere in Validity of the Spin-Hamiltonian Formalism.

R. Boča, J. Štofko, M. Ladická, C. Rajnák, ACS Omega, 9 (2024) 51453-51462. Quantum Chemical Studies of Bendamustine and Melphalan in Water as Antiblood Cancer Agents.

T. Bridová, C. Rajnák, J. Titiš, E. Samoľová, K. Tran, O. Malina, A. Bieńko, F. Renz, M. Gembický, R. Boča. Dalton Transactions, 53 (2024) 10824-10828. A mononuclear Fe(iii) complex showing thermally induced spin crossover and slow magnetic relaxation with reciprocating thermal behaviour.

R. Mičová, C. Rajnák, J. Titiš, J. Moncoľ, J. Novačiková, A. Bieńko, R. Boča. Dalton Transactions, 53 (2024) 5147–5151. A heptanuclear {Dy2Cu5} complex as a single-molecule magnet.

R. Mičová, Z. Bielková, C. Rajnák, J. Titiš, J. Moncoľ, A. Bieńko, R. Boča. Dalton Transactions, 53 (2023) 1492–1496. Magnetic properties of a europium(iii) complex - possible multiplet crossover.

VI.4 - The most significant citations corresponding to the research/artistic/other outputs

C. Rajnák, J. Titiš, J. Moncoľ, R. Mičová, R. Boča, Inorganic Chemistry, 58 (2019) 991-994. Field-Induced Slow Magnetic Relaxation in a Mononuclear Manganese(II) Complex.                                                            

  1. Li, H.-L., Lian, C., Chen, L.-J., Zhao, J.-W., Yang, G.-Y. Two Ce3+-Substituted Selenotungstates Regulated by N, N-Dimethylethanolamine and Dimethylamine Hydrochloride. Inorganic Chemistry 58 (2019) 8442-8450.
  2. Yi G., Zhang C., Zhao W., Cui H., Chen L., Wang Z., Chen X.-T., Yuan A., Liu Y.-Z., Ouyang Z.-W. Structure, magnetic anisotropy and relaxation behavior of seven-coordinate Co(ii) single-ion magnets perturbed by counter-anions. Dalton Transactions, 49 (2022), 7620-7627. DOI: 10.1039/d0dt01232g
  3. Mondal A., Wu S.-Q., Sato O., Konar S. Effect of Axial Ligands on Easy-Axis Anisotropy and Field-Induced Slow Magnetic Relaxation in Heptacoordinated FeII Complexes. Chemistry - A European Journal, 26 (2020), 4780-4789. DOI: 10.1002/chem.201905166h
  4. Rok M., Zarychta B., Janicki R., Witwicki M., Bieńko A., Bator G. Dielectric-Optical Switches: Photoluminescent, EPR, and Magnetic Studies on Organic-Inorganic Hybrid (azetidinium)2MnBr4. Inorganic Chemistry, 61 (2022) 5626-5636. DOI: 10.1021/acs.inorgchem.2c00363
  5. Kumar Sahu P., Kharel R., Shome S., Goswami S., Konar S. Understanding the unceasing evolution of Co(II) based single-ion magnets. Coordination Chemistry Reviews, 475 (2023), art. no. 214871. DOI: 10.1016/j.ccr.2022.214871

C. Rajnák, F. Varga, J. Titiš, J. Moncoľ, R. Boča, Inorganic Chemistry 57 (2018) 4352-4358. Octahedral–tetrahedral systems [Co(dppmO,O)3]2+[CoX4]2– showing slow magnetic relaxation with two relaxation modes.                                                                                                                                                                                                                                                                                                          

  1. Sarkar, A., Dey, S., Rajaraman, G. Role of Coordination Number and Geometry in Controlling the Magnetic Anisotropy in FeII, CoII, and NiII Single-Ion Magnets. Chemistry - A European Journal 26 (2020) 14036-14058
  2. Lohrey T.D., Cusumano A.Q., Goddard W.A., Stoltz B.M. Identifying the Imperative Role of Metal-Olefin Interactions in Catalytic C-O Reductive Elimination from Nickel(II). ACS Catalysis, 11 (2021) 10208-10222, DOI: 10.1021/acscatal.1c02790
  3. Imperato M., Nicolini A., Boniburini M., Gómez-Coca S., Ruiz E., Santanni F., Sorace L., Cornia A. Phase-dependent polymerization isomerism in the coordination complexes of a flexible bis(β-diketonato) ligand. Dalton Transactions, 53 (2024), 18762-18781. DOI: 10.1039/d4dt02574a
  4. Bombaci M., Lo Presti F., Pellegrino A.L., Lippi M., Rossi P., Tacconi L., Sorace L., Malandrino G. Bifunctional heterobimetallic 3d–4f [Co(II)-RE, RE = Dy, Eu, and Y] ionic complexes: modulation of the magnetic-luminescence behaviour. Dalton Transactions, 54 (2024) 274-289. DOI: 10.1039/d4dt01693a
  5. Sharifullin T.Z., Vasiliev A.V., Dolzhenko V.D., Bette S., Dinnebier R.E., Kremer R.K., Kazin P.E. Slow magnetization relaxation of a high-spin iron(iii) in mayenite Ca12Al14O33. Inorganic Chemistry Frontiers (2024), Cited 0 times. DOI: 10.1039/d4qi00480a

R. Boča, C. Rajnák, J. Moncoľ, J. Titiš, D. Valigura, Inorganic Chemistry 57 (2018) 14314-14321. Breaking the Magic Border of One Second for Slow Magnetic Relaxation of Cobalt-Based Single Ion Magnets. 

  1. Mondal, A., Kharwar, A.K., Konar, S. Sizeable Effect of Lattice Solvent on Field Induced Slow Magnetic Relaxation in Seven Coordinated CoII Complexes. Inorganic Chemistry 58 (2019) 10686-10693.
  2. Misochko E.Y., Akimov A.V., Korchagin D.V., Nehrkorn J., Ozerov M., Palii A.V., Clemente-Juan J.M., Aldoshin S.M. Purely Spectroscopic Determination of the Spin Hamiltonian Parameters in High-Spin Six-Coordinated Cobalt(II) Complexes with Large Zero-Field Splitting. Inorganic Chemistry, 58 (2019), 16434-16444. DOI: 10.1021/acs.inorgchem.9b02195
  3. Cui Y., Xu Y., Liu X., Li Y., Wang B.-L., Dong Y., Li W., Lei S. Field-Induced Single-Ion Magnetic Behavior in Two Mononuclear Cobalt(II) Complexes. Chemistry - An Asian Journal, 14 (2019), pp. 2620-2628. DOI: 10.1002/asia.201900258
  4. Ishizaki T., Karasaki H., Kage Y., Kamioka M., Wang Y., Mori S., Ishikawa N., Fukuda T., Furuta H., Shimizu S. Janus Pyrrolopyrrole Aza-dipyrrin: Hydrogen-Bonded Assemblies and Slow Magnetic Relaxation of the Cobalt(II) Complex in the Solid State. Chemistry - A European Journal, 27 (2021), 12686-12692, DOI: 10.1002/chem.202101755
  5. Bhowmick I., Newell B.S., Shores M.P. A systematic study of the influence of ligand field on the slow magnetic dynamics of Co(ii)-diimine compounds. Dalton Transactions, 50 (2021), 10737-10748. DOI: 10.1039/d0dt01597k

C. Rajnák, J. Titiš, J. Moncoľ, F. Renz, R. Boča, Chem. Commun., 55 (2019) 13868-13871. Slow magnetic relaxation in a high-spin pentacoordinate Fe(III) complex.                                                                                                  

  1. Gu, L., Wu, R. Origins of Slow Magnetic Relaxation in Single-Molecule Magnets. Physical Review Letters 125(11) (2020) 117203.
  2. Zabala-Lekuona A., Seco J.M., Colacio E. Single-Molecule Magnets: From Mn12-ac to dysprosium metallocenes, a travel in time.Coordination Chemistry Reviews, 441 (2021) art. no. 213984.DOI: 10.1016/j.ccr.2021.213984
  3. Gu L., Wu R. Origin of the anomalously low Raman exponents in single molecule magnets. Physical Review B, 103 (2021), art. no. 014401. DOI: 10.1103/PhysRevB.103.014401
  4. Wang L.-X., Wu X.-F., Jin X.-X., Li J.-Y., Wang B.-W., Liu J.-Y., Xiang J., Gao S. Slow magnetic relaxation in 8-coordinate Mn(ii) compounds. Dalton Transactions, 52 (2023), 14797-14806. DOI: 10.1039/d3dt02307a
  5. Su Q.-Q., Yuan Q., Wu X.-F., Chen S.-H., Xiang J., Jin X.-X., Wang L.-X., Wang B.-W., Gao S., Lau T.-C. Slow magnetic relaxation in structurally similar mononuclear 8-coordinate Fe(ii) and Fe(iii) compounds. Chemical Communications, 57 (2021), 781-784. DOI: 10.1039/d0cc07004a

R. Boča, C. Rajnák, J. Titiš, D. Valigura, Inorganic Chemistry 56 (2017) 1478-1482. Field Supported Slow Magnetic Relaxation in a Mononuclear Cu(II) Complex.                                                                                 

  1. Gumerova, N.I., Roller, A., Giester, G., Krzystek, J., Cano, J., Rompel, A. Incorporation of CrIII into a Keggin Polyoxometalate as a Chemical Strategy to Stabilize a Labile CrIIIO4 Tetrahedral Conformation and Promote Unattended Single-Ion Magnet Properties. Journal of the American Chemical Society 142 (2020) 3336-3339.
  2. Tiaouinine S., Flores Gonzalez J., Lefeuvre B., Guizouarn T., Cordier M., Dorcet V., Kaboub L., Cador O., Pointillart F. Spin Crossover and Field-Induced Single-Molecule Magnet Behaviour in Co(II) Complexes Based on Terpyridine with Tetrathiafulvalene Analogues.European Journal of Inorganic Chemistry, 2021 (2021), 2374-2383. DOI: 10.1002/ejic.202100247
  3. Chen P., Holinsworth B.S., O'Neal K.R., Luo X., Topping C.V., Cheong S.W., Singleton J., Choi E.S., Musfeldt J.L. Frustration and Glasslike Character in RIn1- xMnxO3 (R = Tb, Dy, Gd). Inorganic Chemistry, 57 (2018), 12501-12508. DOI: 10.1021/acs.inorgchem.8b01467
  4. Chakarawet K., Atanasov M., Ellis J.E., Lukens W.W., Young V.G., Chatterjee R., Neese F., Long J.R. Effect of Spin-Orbit Coupling on Phonon-Mediated Magnetic Relaxation in a Series of Zero-Valent Vanadium, Niobium, and Tantalum Isocyanide Complexes Inorganic Chemistry, 60 (2021), 18553-18560. DOI: 10.1021/acs.inorgchem.1c03173
  5. Ding M., Hickey A.K., Pink M., Telser J., Tierney D.L., Amoza M., Rouzières M., Ozumerzifon T.J., Hoffert W.A., Shores M.P., Ruiz E., Clérac R., Smith J.M. Magnetization Slow Dynamics in Ferrocenium Complexes. Chemistry - A European Journal, 25 (2019), 10625-10632. DOI: 10.1002/chem.201900799
VI.5 - Participation in conducting (leading) the most important research projects or art projects over the last six years

VEGA 1/0191/22: Untraditional Single-Molecule Magnets. 2022 - 2025 (responsible researcher for UCM).

Output: Mičová, R., Rajnák, C., Titiš, J., Bieńko, A., Moncoľ, J., Samoľová, E., Boča, R. Easy-axis magnetic anisotropy in tetragonally elongated cobalt(ii) complexes beyond the spin-Hamiltonian formalism. (2023) Dalton Trans., 52, pp. 7885–7892. DOI: 10.1039/d3dt00990d.


VEGA 1/0086/21: New compounds with useful magnetic and opto-electric properties. (2021-2024), investigator.

Output: Boča, R., Rajnák, C., Titiš, J. Possible Violation of the Spin-Hamiltonian Concept in Interpreting the Zero-Field Splitting. (2023) Journal of Physical Chemistry A. DOI: 10.1021/acs.jpca.3c00599.


APVV-19-0087: Bioactive Transition Metal Complexes with Magnetic Bistability. (2020-2024), investigator.

Output: Boča, R., Rajnák, C., Titiš, J. Possible Violation of the Spin-Hamiltonian Concept in Interpreting the Zero-Field Splitting. (2023) Journal of Physical Chemistry A. DOI: 10.1021/acs.jpca.3c00599.


APVV-18-0016: Molecular nanomagnets assembled of transition metal complexes. (2019-2023), investigator.

Output: Multifunctional materials based on the double-perovskite organic–inorganic hybrid (CH3NH3)2[KCr(CN)6] showing switchable dielectric, magnetic, and semiconducting behaviour. Rok, M.,Moskwa, M., Działowa, M., Bieńko, A., Rajnák, C., Boča, R., Bator, G. Dalton Trans., 2019, 48, 16650–16660. DOI: 10.1039/c9dt03553b.

APVV-14-0073: Magnetocaloric effect in quantum and nanoscopic systems. 2015 - 2019, investigator.

Output: Wang, X.-P., Chen, W.-M., Qi, H., Li, X.-Y., Rajnák, C., Feng, Z.-Y., Kurmoo, M., Boča, R., Jia, C.-J., Tung, C.-H., Sun, D. Solvent-Controlled Phase Transition of a CoII-Organic Framework: From Achiral to Chiral and Two to Three Dimensions. (2017) Chemistry - A European Journal, 23 (33), pp. 7990-7996. Cited 105 times. DOI: 10.1002/chem.201700474.


APVV-14-0078: New materials assembled of coordination compounds. (2015-2019), investigator.

Output: Lomjanský, D., Moncol, J., Rajnák, C., Titiš, J., Boča, R. Field effects to slow magnetic relaxation in a mononuclear Ni(II) complex. (2017) Chemical Communications, 53 (51), pp. 6930-6932. DOI: 10.1039/c7cc03275g.


VEGA 1/0919/17: Deposits of metal elements in human organs - detection and modeling of formation. 2017-2019, investigator.

Output: Smolko, L., Černák, J., Kuchár, J., Rajnák, C., Titiš, J., Boča, R. Field-Induced Slow Magnetic Relaxation in Mononuclear

Tetracoordinate Co(II) Complexes Containing Neocuproine Ligand. EurJIC, 2017 (2017) 3080-3086. DOI: 10.1002/ejic.201700293.

VII. - Overview of organizational experience related to higher education and research/artistic/other activities

VII.a - Activity, position VII.b - Name of the institution, board VII.c - Duration
Member of the excellent scientific team at UCM in Trnava: New nanomagnetic materials University of Ss. Cyril and Methodius in Trnava since 2020
Member of the FNS UCM academic senate University of Cyril and Methodius in Trnava 2020-2023
Member of the committee for PhD. the study (Applied analytical and bioanalytical chemistry) University of Ss. Cyril and Methodius in Trnava since 2022
Member of the UCM Internal Quality Assessment Council University of Ss. Cyril and Methodius in Trnava 2022-2023
Member of the committee for PhD studies in Inorganic Chemistry Faculty of Natural Sciences Comenius University Bratislava from 2023
Chairman of the B.Sc. defense committee (program: chemistry) University of Ss. Cyril and Methodius in Trnava from 2023
Member of the M.Sc. defense committee (program: Applied chemistry) University of Ss. Cyril and Methodius in Trnava from 2023
Member of the committee for the defense of the PhD examination and dissertation project in the field of Applied Analytical and Bioanalytical Chemistry University of Ss. Cyril and Methodius in Trnava from 2024
Member of the committee for dissertation defenses in the study program Applied Analytical and Bioanalytical Chemistry University of Ss. Cyril and Methodius in Trnava from 2024

VIII. - Overview of international mobilities and visits oriented on education and research/artistic/other activities in the given field of study

VIII.a - Name of the institution VIII.b - Address of the institution VIII.c - Duration (indicate the duration of stay) VIII.d - Mobility scheme, employment contract, other (describe)
Leibniz University Hannover, Institute of Inorganic Chemistry Callinstraße 9, Hannover, Germany May 2021 - July 2021 NSP, Lecture ("Single molecule magnets”) for students and staff from Institute of Inorganic Chemistry, Prof. Dr. Franz Renz
Leibniz University Hannover, Institute of Inorganic Chemistry Callinstraße 9, Hannover, Germany August 2021 DAAD, Lecture ("Fe(III) complexes containing new Schiff base ligand”) for students and staff from Institute of Inorganic Chemistry, Prof. Dr. Franz Renz
Leibniz University Hannover, Institute of Inorganic Chemistry Callinstraße 9, Hannover, Germany September 2021 DAAD, Lecture (“High-spin Mononuclear Fe(III) Complexes Composed by Amino-form of Ligand”) for students and staff from Institute of Inorganic Chemistry, Prof. Dr. Franz Renz
Leibniz University Hannover, Institute of Inorganic Chemistry Callinstraße 9, Hannover, Germany August 2018 DAAD, Lecture (“Advanced methods in magnetometry”) for students and staff from Institute of Inorganic Chemistry, Prof. Dr. Franz Renz
Energy Technologies Research Institute, University of Nottingham Nottingham, UK November 2021 APVV, special measurements, Prof. James O’Shea
Palacký University Olomouc, Department of Inorganic Chemistry 17. listopadu 1192/12 779 00 Olomouc, Czechia September 2021 APVV, magnetochemical measurements, Doc. Radovan Herchel
Leibniz Universität Hannover, Institut für Anorganische Chemie Callinstraße 9, Hannover, Germany May 2022-July 2022 NŠP
Leibniz Universität Hannover, Institut für Anorganische Chemie Callinstraße 9, Hannover, Germany May 2023-July 2023 NŠP
Leibniz Universität Hannover, Institut für Anorganische Chemie Callinstraße 9, Hannover, Germany 21.11.2022 - 26.11.2022 Erasmus+
Leibniz Universität Hannover, Institut für Anorganische Chemie Callinstraße 9, Hannover, Germany 20.03.2023 - 25.03.2023 Erasmus+
Leibniz Universität Hannover, Institut für Anorganische Chemie Callinstraße 9, Hannover, Germany 11.09.2023 - 16.09.2023 Erasmus+
Leibniz Universität Hannover, Institut für Anorganische Chemie Callinstraße 9, Hannover, Germany 29.11.2023 02.12.2023 Erasmus+
Leibniz Universität Hannover, Institut für Anorganische Chemie Callinstraße 9, Hannover, Germany 04.08.2023 - 19.08.2023 DAAD
Leibniz Universität Hannover, Institut für Anorganische Chemie Callinstraße 9, Hannover, Germany 26.02.2024-02.03.2024 ERASMUS +
Leibniz Universität Hannover, Institut für Anorganische Chemie Callinstraße 9, Hannover, Germany 27.05.2024-31.05.2024 Erasmus +
University of California San Diego 9500 Gilman Dr, La Jolla, CA 92093, USA 09.04.2024-17.04.2024 Erasmus International
University of California San Diego 9500 Gilman Dr, La Jolla, CA 92093, USA 21.10.2024-01.11.2024 Erasmus International
Leibniz Universität Hannover, Institut für Anorganische Chemie Callinstraße 9, Hannover, Germany 06.05.2024- 19.05.2024 DAAD
Leibniz Universität Hannover, Institut für Anorganische Chemie Callinstraße 9, Hannover, Germany 22.07.2024- 04.08.2024 DAAD

IX. - Other relevant facts

Date of last update
2025-03-10