Ondrej Krejci

Tutkijatohtori

Lataa CV

Profile photoOndrej Krejci
Tutkijatohtori
Surfaces and Interfaces at the Nanoscale
Teknillisen fysiikan laitos
Postiosoite:
Otakaari 1 Y430c 02150 Espoo SUOMI
Sähköposti: ondrej.krejci@aalto.fi
Matkapuhelin: +358504703533

Research outputs

Three-dimensional graphene nanoribbons as a framework for molecular assembly and local probe chemistry

Kawai, S., Krejci, O., Nishiuchi, T., Sahara, K., Kodama, T., Pawlak, R., Meyer, E., Kubo, T. & Foster, A., 28 helmikuuta 2020, julkaisussa : Science Advances. 6, 9, 7 Sivumäärä, eaay8913.

Automated structure discovery in atomic force microscopy

Alldritt, B., Hapala, H., Oinonen, N., Urtev, F., Krejci, O., Federici Canova, F., Kannala, J., Schulz, F., Liljeroth, P. & Foster, A., 26 helmikuuta 2020, julkaisussa : Science Advances. 6, 9, 10 Sivumäärä, eaay6913.

Synthesis of Regioisomeric Graphene Nanoribbon Junctions via Heteroprecursors

Sun, K., Krejci, O., Foster, A. S., Okuda, Y., Orita, A. & Kawai, S., 18 heinäkuuta 2019, julkaisussa : Journal of Physical Chemistry C. 123, 28, s. 17632-17638 7 Sivumäärä

Interface dipoles of Ir(ppy)3 on Cu(111)

Queck, F., Albrecht, F., Mutombo, P., Krejci, O., Jelínek, P., McLean, A. & Repp, J., 14 heinäkuuta 2019, julkaisussa : Nanoscale. 11, 26, s. 12695-12703 9 Sivumäärä

Bonding Motifs in Metal-Organic Compounds on Surfaces

Queck, F., Krejčí, O., Scheuerer, P., Bolland, F., Otyepka, M., Jelínek, P. & Repp, J., 17 syyskuuta 2018, julkaisussa : Journal of the American Chemical Society. 140, s. 12884−12889 40.

Diacetylene Linked Anthracene Oligomers Synthesized by One-Shot Homocoupling of Trimethylsilyl on Cu(111)

Kawai, S., Krejci, O., Foster, A., Pawlak, R., Xu, F., Peng, L., Orita, A. & Meyer, E., 7 elokuuta 2018, julkaisussa : ACS Nano. 12, 8, s. 8791−8797

Elemental Identification by Combining Atomic Force Microscopy and Kelvin Probe Force Microscopy

Schulz, F., Ritala, J., Krejčí, O., Seitsonen, A. P., Foster, A. S. & Liljeroth, P., 26 kesäkuuta 2018, julkaisussa : ACS Nano. 12, 6, s. 5274-5283 10 Sivumäärä
Added personal information:

Nationality: Czech Republic

ResearcherID-Publons: G-5918-2014
ORCID: 0000-0002-4948-4312
Google Scholar: https://scholar.google.fi/citations?user=RTmwqccAAAAJ&hl=en 
Professional experience:

Aalto University, Finland: 08/01/2018-ongoing, Postdoc, SIN group, Department of Applied Physics.
Institute of Physics of the AS CR: 01/10/2010-31/12/2017, (Break: 16/09/2013-31/06/2014 - Erasmus), Nanosurf Lab, Department of thin films and nanostructures

Education:

Ph.D. study: 01/10/2013-30/11/2017, Charles University in Prague, Physics of Surfaces and Interfaces
Ph.D. thesis: DFT simulations of interactions between organic molecules and oriented surfaces
Supervisor: doc. RNDR. Pavel Kocán, Ph.D.
Consultant: doc. Ing. Pavel Jelínek, Ph.D.

Master study:01/10/2011-27/05/2013, Charles University in Prague, Biophysics and Chemical Physics – Theory of Molecular Systems
Master thesis: Theoretical calculation of interaction between adsorbate and oriented Si surfaces
Supervisor: RNDR. Pavel Kocán, Ph.D.
Consultant: Ing. Pavel Jelínek, Ph.D.

Bachelor study: 01/10/2008-13/09/2011, Charles University in Prague, General Physics
Bachelor thesis: Theoretical calculation of stability and electronic structure of Si surfaces
Supervisor: RNDR. Pavel Kocán, Ph.D.
Consultant: Ing. Pavel Jelínek, Ph.D.

Exchange scholarships and summer schools:

ERASMUS:  16/09/2013-08/05/2014, Stockholm University, Sweden, Chemical physics, group of L. G. M. Petterson
Summer Schools: 17-22/08/2014, CAMD Summer School on Electronic Structure Theory and Materials Design, Technical University of Denmark, Lyngby, Denmark
   13-23/07/2015, Hands-on workshop density-functional theory and beyond: First-principles simulations of molecules and materials, Fritz-Haber-Institute, Berlin, Germany

Other (pre-Aalto) Reseach Outputs:
Publications in Journals:citations according to web of science 11th March 2020 (excluding self-citations)

1. P. Kocán, O. Krejčí, O. and H. Tochihara. J. Vac. Sci. Technol. A, 33, 021408 (2015)DOI: http://dx.doi.org/10.1116/1.4913199
citations: 0 (0).
2. J. Sforzini, M. Telychko, O. Krejčí, M. Vondráček, M. Švec, F. C. Bocquet, and F. S. Tautz. Phys. Rev. B 93, 041302 (2016)DOI: http://dx.doi.org/10.1103/PhysRevB.93.041302
citations: 3 (3).
3. N. Kocić, X. Liu, S. Chen, S. Decurtin, O. Krejčí, P. Jelínek, J. Repp and S.X. Liu. J. Am. Chem. Soc., 138, pp 5585–5593 (2016)DOI: http://dx.doi.org/10.1021/jacs.5b13461
citations: 37 (36).
4. O. Krejčí, P. Matvija, P. Zimmermann, P. Sobotík, I. Ošťádal and P. Kocán. J. Phys. Chem. C, 120 (17), pp 9200–9206 (2016)DOI: http://dx.doi.org/10.1021/acs.jpcc.6b00486
citations: 2 (2).
5. O. Krejčí, P. Hapala, M. Ondráček and P. Jelínek, Phys. Rev. B 95, 045407 (2017)DOI: http://dx.doi.org/10.1103/PhysRevB.95.045407
citations: 18 (16).
6. J. LaRue, O. Krejčí, L. Yu, M. Beye, M. L. Ng, H. Öberg, H. Xin, G. Mercurio, S. Moeller, J. J. Turner, D. Nordlund, R. Coffee, M. P. Minitti, W. Wurth, L. G. M. Pettersson, H. Öström, A. Nilsson, F. Abild-Pedersen and H. Ogasawara, J. Phys. Chem. Lett., 8 (16), pp 3820–3825 (2017)DOI: http://dx.doi.org/10.1021/acs.jpclett.7b01549
citations: 3 (3)
7. B. de la Torre, M. Švec, G. Foti, O. Krejčí, P. Hapala, A. Garcia-Lekue, T. Frederiksen, R. Zbořil, A. Arnau, H. Vázquez, and P. Jelínek, Phys. Rev. Lett. 119, 166001 (2017) DOI: http://dx.doi.org/10.1103/PhysRevLett.119.166001 citations: 9 (8)
8. B. de la Torre, M. Švec, P. Hapala, J. Redondo, O. Krejčí, R. Lo, D. Manna, A. Sarmah, D. Nachtigallová, J. Tuček, P. Błoński, M. Otyepka, R. Zbořil, P. Hobza and P. Jelínek, Nat. Commun. 9, 2831 (2018) DOI: https://doi.org/10.1038/s41467-018-05163-y citations: 17 (17) 
Publications in Conference Proceedings:

1. P. Zimmermann, O. Krejčí, P. Kocán, I. Ošťádal, and P. Sobotík. WDS’13 Proceedings of Contributed Papers, Part III, 116–121 (2013).citations: 0 (0) 
Invited presentations:

1. Theory of Hetero-Interfaces and Surfaces Workshop, 06/07/2018, Yonsei University, Seoul, S. South Korea, Invited Tutorial: Imaging mechanism of SPM utilizing flexible tip apexes and simulations of flexible tip apex employing fm-AFM imaging (2D) molecules adsorbed on (metal) surfaces.
2. NANO Korea 20188 symposium, 12/07/2018, Kintex, S. Korea, Invited Talk: Advances in high resolution scanning probe microscopy of molecules on surfaces and its simulations

ID: 17013447