Dr. Arkady Krasheninnikov

Lei­ter Atomistische Simulation ionen­induzier­ter Phänomene
Tel.: +49 351 260 3148


Atomistische Simulation ioneninduzierter Phänomene

The group is focused on multi-scale atomistic simulations of materials with particular focus on nanosystems. Specifically, we carry out calculations of the mechanical, magnetic and opto-electonic properties of materials at various levels of sophistication  ranging from time-dependent density functional theory to empirical potential molecular dynamics and kinetic Monte-Carlo methods. We also study effects of ion and electron irradiation on solids.

Main topics of research

  • Effects of ion and electron irradiation on two-dimensional (2D) materials such as graphene and transition-metal dichalcogenides.
  • Development of the Ehrenfest dynamics (time-dependent density functional theory combined with classical dynamics for the nuclei) to study irradiation effects in solids
  • Electronic and optical properties of 2D materials and their heterostructures
  • Thermal transport at the nanoscale
  • Mechanical properties of BN-metal nanocomposites
  • Properties of confined and free-standing atomic chains

The Group Leader  is also a Vising Professor at the Aalto University, Finland.

Publications, presentations and selected recognitions

  • More than 60 invited and keynote talks at international conferences/workshops (among them APS, AVS, MRS, EMRS meetings, Gordon Research Conferences, CAARI, COSIRES)
  • 200+ publications in refereed journals cited 20,000+ (Web of Science) / 25,800+ (Google Scholar) times   Google Scholar Profile
  • H-factor 66 (Web of Science), 73 (Google Scholar)

  • HZDR Research Award (Forschungspreis), 2017

  • Highly Cited Researcher (Physics) from Clarivate Analytics, 2017-2020

  • American Physical Society "Outstanding Referee" 2018

Group members:

  • Dr. Mahdi Ghorbani-Asl
  • Dr. Silvan Kretschmer
  • Dr. Rico Friedrich
  • M. Sc. Sadegh Ghaderzadeh
  • M. Sc. Thomas Joseph
  • M. Sc. Mitisha Jain
  • Dr. Ilja Chepkasov (DAAD visitor)

Former group members:

  • M.Sc. Yidan Wei
  • Dr. Karthikeyan Jeyakumar
  • M.Sc. Seyed Hashemi-Petrudi
  • Vladimir Ladygin
  • Michael Maslov

The group works in collaborations with the experimental groups at the Ion Beam Center (HZDR), and also has numerous external coworkers in Germany (University of Köln, University of Ulm, TU Dresden), Finland (Aalto University, University of Helsinki), Japan (AIST, NIMS) and Denmark (DTU).

Reprints of recent publications of the group leader can be found here.

Recent publications:


  • Y.-C. Lin, J. Karthikeyan, Y.-P. Chang, S. Li, S. Kretschmer, H.-P. Komsa, P.-W. Chiu, A.V. Krasheninnikov, and K. Suenaga “Formation of highly doped nanostripes in 2D transition metal dichalcogenides via dislocation climb mechanism”, Adv. Mater. 33 (2021) 2007819. DOI: 10.1002/adma.202007819.
  • M. Fischer, J.M. Caridad, A. Sajid, S. Ghaderzadeh, M. Ghorbani-Asl, L. Gammelgaard, P. Bøggild, K. S. Thygesen, A.V. Krasheninnikov, S. Xiao, M. Wubs, and N. Stenger, “Controlled generation of luminescent centres in hexagonal boron nitride by irradiation engineering” Sci. Adv.  7 (2021) eabe7138.
  • J. Shang, X. Tang, Y. Gu, A.V. Krasheninnikov, S. Picozzi, C. Chen, and L. Kou “Robust Magnetoelectric Effect in Decorated Graphene/In2Se3 Heterostructure” ACS Appl. Mater. Interfaces 13 (2021) 3033−3039.
  • J. Li, T. Joseph, M. Ghorbani-Asl, S. Kolekar, A.V. Krasheninnikov, and M. Batzill, “Mirror twin boundaries in MoSe2 monolayers as one dimensional nanotemplates for selective water adsorption”, Nanoscale 13 (2021) 1038–1047.
  • J. Köster, M. Ghorbani-Asl, H.-P. Komsa, T. Lehnert, S. Kretschmer, A.V. Krasheninnikov, and U. Kaiser “Defect Agglomeration and Electron Beam-Induced Local Phase Transformations in Single-Layer MoTe₂” J. Phys. Chem. C 125 (2021) 13601−13609.
  • S. Ghaderzadeh, S. Kretschmer, M. Ghorbani-Asl, G. Hlawacek. and A.V. Krasheninnikov, “Atomistic Simulations of Defect Production in Monolayer and Bulk Hexagonal Boron Nitride under Low- and High-Fluence Ion Irradiation”, Nanomaterials 11 (2021) 1214. DOI: 10.3390/nano1105121.
  • Q. Yang, X. Hu, X. Shen, A.V. Krasheninnikov, Z. Chen, and L. Sun “Enhancing Ferromagnetism and Tuning Electronic Properties of CrI3 Monolayers by Adsorption of Transition-Metal Atoms” ACS Appl. Mater. Interfaces 13 (2021) 21593−21601. DOI: 10.1021/acsami.1c01701
  • S. Prucnal, A. Hashemi, M. Ghorbani-Asl, R. Hübner, J. Duan, Y. Wei, D. Sharma, D. R. T. Zahn, R. Ziegenrücker, U. Kentsch, A.V. Krasheninnikov, M. Helm, and S. Zhou “Chlorine doping of MoSe2 flakes by ion implantation”, Nanoscale13 (2021) 5834-5846. DOI: 10.1039/d0nr08935d.
  • A Hashemi, C. Linderälv, A. V. Krasheninnikov, T. Ala-Nissilä, P. Erhart, and H.-P. Komsa “Photoluminescence Lineshapes for Defect Centers in Silicon Carbide from First-Principles Calculations” Phys. Rev. B 103 (2021) 125203. DOI: 10.1103/PhysRevB.103.125203. 


  • A.V. Krasheninnikov "Are two-dimensional materials radiation tolerant? " Nanoscale Horizons, 5 (2020) 1447-1452.
  • I.V. Chepkasov, M. Ghorbani-Asl, Z.I. Popov, J.H. Smet, and A.V. Krasheninnikov “Alkali metals inside bi-layer graphene and MoS2: insights from first-principles calculations”, Nano Energy 75 (2020) 104927.
  • Q. Yang, L. Kou, X. Hu, Y. Wang, C. Lu, A.V. Krasheninnikov, and L. Sun “Strain robust spin gapless semiconductors/half-metals in transition metal embedded MoSe2 monolayer” Journal of Physics: Condensed Matter (2020) 32 (2020) 365305.
  • S. Kretschmer, T. Lehnert, U. Kaiser, and A. V. Krasheninnikov, “Formation of defects in two-dimensional MoS2 in the transmission electron microscope at electron energies below the knock-on threshold: the role of electronic excitations” Nano Letters 20 (2020) 2865.
  • S. Ghaderzadeh, V. Ladygin, M. Ghorbani-Asl, G. Hlawacek, M. Schleberger, and A. V. Krasheninnikov “Freestanding and Supported MoS2 Monolayers under Cluster Irradiation: Insights from Molecular Dynamics Simulations” ACS Appl. Mater. Interfaces 12 (2020) 37454−37463.
  • Z. Shang, A. Hashemi, Y. Berencén, H.-P. Komsa, P. Erhart, S. Zhou, M. Helm, A. V. Krasheninnikov, and G. V. Astakhov “Local vibrational modes of Si vacancy spin qubits in SiC”, Phys. Rev. B, 101 (2020) 144109.
  • C. Murray, C. van Efferen, W. Jolie, J.A. Fischer, J. Hall, A. Rosch, A. V. Krasheninnikov, , H.-P. Komsa, and T. Michely “Band Bending and Valence Band Quantization at Line Defects in MoS2”, ACS Nano (2020) ACS Nano 14 (2020) 9176–9187. 
  • Z. Kou, A. Hashemi, M. Puska, A.V. Krasheninnikov, and H.-P. Komsa, “Simulating Raman spectra by combining first-principles and empirical potential approaches with application to defective MoS2", npj Computational Materials (2020) 6 (2020) 59.
  • X. Hu, Y. Zhao, X. Shen, A. V. Krasheninnikov, Z. Chen, and L. Sun “Enhanced Ferromagnetism and Tunable Magnetism in Fe3GeTe2 Monolayer by Strain Engineering” ACS Appl. Mater. Interfaces, 12 (2020) 26367−26373.
  • B. Mohanty, Y. Wei, M. Ghorbani-Asl, A.V. Krasheninnikov, P. Rajput, B. K. Jena,”Revealing the defect-dominated oxygen evolution activity of hematene” Journal of Materials Chemistry A 8 (2020) 6709.
  • H. Zhong, M. Ghorbani-Asl, K. Ly, J. Zhang, J. Ge, M. Wang, Z. Liao, D. Makarov, E. Zschech, E. Brunner, I. Weidinger, J. Zhang, A.V. Krasheninnikov, S. Kaskel, R. Dong, and X. Feng "Synergistic Electroreduction of Carbon Dioxide to Carbon Monoxide on Bimetallic Layered Conjugated Metal-Organic Frameworks" Nature Communication 11 (2020) 1409.
  • P. Valerius, S. Kretschmer, B.V Senkovskiy, S. Wu1, J. Hall, A. Herman, N. Ehlen, M. Ghorbani-Asl, A. Grüneis, A.V Krasheninnikov, and T. Michely, “Reversible crystalline-to-amorphous phase transformation in monolayer MoS2 under grazing ion irradiation”, 2D Mater. 7 (2020) 025005.
  • S. Ghaderzadeh, M. Ghorbani-Asl, S. Kretschmer, G. Hlawacek, and A.V. Krasheninnikov, “Channeling effects in gold nanoclusters under He ion irradiation: insights from molecular dynamics simulations” Nanotechnology 31 (2020) 035302.


  • J. Karthikeyan, H.-P. Komsa, M. Batzill, and A.V. Krasheninnikov “Which transition metal atoms can be embedded into two-dimensional molybdenum dichalcogenides and add magnetism?” Nano Letters 19 (2019) 4581-4587.
  • T. Joseph, M. Ghorbani-Asl, A. G. Kvashnin, K. V. Larionov, Z. I. Popov, P. B. Sorokin, and A.V. Krasheninnikov, “Nonstoichiometric Phases of Two-Dimensional Transition-Metal Dichalcogenides: From Chalcogen Vacancies to Pure Metal Membranes” J. Phys. Chem. Lett., 10 (2019) 6492-6498.
  • P. K. Gogoi, Y.-C. Lin, R. Senga, H.-P. Komsa, S. Liang, W. D. Chi, A.V. Krasheninnikov, L.-J. Li, M.B.H. Breese, S.J. Pennycook, A. T. S. Wee, and K. Suenaga, ACS Nano 13 (2019) 9541-9550.
  • L. Balaghi, G. Bussone, R. Grifone, R. Hübner, J. Grenzer, M. Ghorbani-Asl, A.V. Krasheninnikov, H. Schneider, M. Helm, and E. Dimakis “Widely tunable GaAs band gap via strain engineering in core/shell nanowires”, Nature Communications 10 (2019) 2793.
  • P. M. Coelho, H.-P. Komsa, K. Lasek, V. Kalappattil, J. Karthikeyan, M.-H. Phan, A.V Krasheninnikov, and M. Batzill, “Room temperature ferromagnetism in MoTe2 by post-growth incorporation of vanadium impurities”, Adv. El. Mater. 5 (2019) 1900044.
  • T. Lehnert, M. Ghorbani-Asl, J. Köster, Z. Lee, A.V. Krasheninnikov, and U. Kaiser “Electron-Beam-Driven Structure Evolution of Single-Layer MoTe2 for Quantum Devices” ACS Appl. Nano Mater. 2 (2019) 3262-3270.
  • W. Jolie, C. Murray, P.S. Weiß, J. Hall, F. Portner, N. Atodiresei, A.V. Krasheninnikov, C. Busse, H.-P. Komsa, A. Rosch, and T. Michely, “Tomonaga-Luttinger liquid in a box: electrons confined within MoS2 mirror twin boundaries”, Phys. Rev. X 9 (2019) 011055.
  • R. Kozubek, M. Tripathi, M. Ghorbani-Asl, S. Kretschmer, L. Madauß, E. Pollmann, M. O’Brien, N. McEvoy, U. Ludacka, T. Susi, G.S. Duesberg, R.A. Wilhelm, A.V. Krasheninnikov, J. Kotakoski, and M. Schleberger “Perforating freestanding molybdenum disulfide monolayers with highly charged ions”, J. Phys. Chem. Lett. 10 (2019) 904.
  • Ke Xu, A.J. Gabourie, A. Hashemi, Z. Fan, N. Wei, A. B. Farimani, H.-P. Komsa, A.V. Krasheninnikov, E. Pop, and T. Ala-Nissila “Thermal Transport in MoS2 from Molecular Dynamics using Different Empirical Potentials”, Phys. Rev. B 99 (2019) 054303.
  • M. K. Kinyanjui, T. Björkman, T. Lehnert, J. Köster, A. Krasheninnikov, and U. Kaiser “Effects of electron beam generated lattice defects on the periodic lattice distortion structure in 1T−TaS2 and 1T−TaSe2 thin layers” Phys. Rev. B 99 (2019) 024101.
  • W. Ai, L. Kou, X. Hu. Y. Wang, A.V. Krasheninnikov, L. Sun, X. Shen “Enhanced Sensitivity of MoSe2 Monolayer for Gas Adsorption Induced by Electric Field”, J. Phys. Cond. Matt. 31 (2019) 445301.
  • A. Hashemi, A.V. Krasheninnikov, M. Puska, and H.-P. Komsa, “Efficient method for simulating Raman spectra in large supercells and application to transition metal dichalcogenide alloys”, Phys. Rev. Mater., 3 (2019) 023806.


  • M. Kühne, F. Börrnert, S. Fecher, M. Ghorbani-Asl, J. Biskupek, D. Samuelis, A.V. Krasheninnikov, U. Kaiser, and J.H. Smet, “Reversible superdense ordering of lithium between two graphene sheets “, Nature 564 (2018) 234.
  • P. C. Börner, M. K. Kinyanjui, T. Björkman, T. Lehnert, A. V. Krasheninnikov, and U. Kaiser, “Observation of charge density waves in free-standing 1T-TaSe2 monolayers by transmission electron microscopy”, Appl. Phys. Lett. 113 (2018) 173103.
  • S. Kretschmer, M. Maslov, S. Ghaderzadeh, M. Ghorbani-Asl, G. Hlawacek, and A. V. Krasheninnikov, "Supported Two-Dimensional Materials under Ion Irradiation: the Substrate Governs Defect Production", ACS Applied Materials & Interfaces 10 (2018) 30827.
  • Y.-C. Lin, S. Li, H.-P. Komsa, L.-J. Chang, A. V. Krasheninnikov, G. Eda and K. Suenaga, “Revealing the atomic defects of WS2 governing its distinct optical emissions” Adv. Func. Mater. 28 (2018) 1704210.
  • B. Mohanty, M. Ghorbani-Asl, S. Kretschmer, A. Ghosh, P. Guha, S.K. Panda, B. Jena, A. V. Krasheninnikov, and B. K. Jena "MoS2 Quantum Dots as Efficient Catalyst Materials for the Oxygen Evolution Reaction", ACS Catal. 8 (2018) 1683.
  • G. Yin, D. Zhu, D. Lv, Z. Zhang, A. Hashemi, A. V. Krasheninnikov, H.-P. Komsa, and C. Jin, “Hydrogen-assisted Post-growth Doping of Tellurium into Molybdenum Disulfide Monolayers with Tunable Compositions”, Nanotechnology 29 (2018) 145603.
  • P. M. Coelho, H.-P. Komsa, H. C. Diaz, Y. Ma, A. V. Krasheninnikov, and M. Batzill, “Post-synthesis modifications of two-dimensional MoSe2 or MoTe2 by incorporation of excess metal atoms into the crystal structure”, ACS Nano 12 (2018) 3975.
  • T. Kosmala, H. C. Diaz, H.-P. Komsa, Y. Ma, A. V. Krasheninnikov, M. Batzill, and S. Agnoli “Metallic twin boundaries boost the hydrogen evolution reaction on the basal plane of molybdenum selenotellurides” Adv. Energy Mater. (2018) 1800031.
  • X. Hu, Y. Wang, X. Shen, A. V. Krasheninnikov, L. Sun and Z. Chen “1T phase as an efficient hole injection layer to TMDs transistors: a universal approach to achieve p-type contacts”, 2D Materials 5 (2018) 031012.
  • A. V. Krasheninnikov, “When defects are not defects” (News & Views article), Nature Materials 17 (2018) 757.
  • H.-P. Komsa, N. Berseneva, A. V. Krasheninnikov, and R.M. Nieminen, “Erratum: Charged point defects in the flatland: Accurate formation energy calculations in two-dimensional materials”, PRX 8 (2018) 039902(E).
  • N. A. Nebogatikova, I. V. Antonova, S. V. Erohin, D. G. Kvashnin, A. Olejniczak, V.A. Volodin, A.V. Skuratov, A. V. Krasheninnikov, P.B. Sorokin, and L.A. Chernozatonskii, “Nanostructuring few-layer graphene films with swift heavy ions for electronic application: tuning of electronic and transport properties” Nanoscale 10 (2018) 14499.


  • S. Kretschmer, H.-P. Komsa, P. Bøggild, and A.V. Krasheninnikov, “Structural Transformations in Two-Dimensional Transition-Metal Dichalcogenide MoS2 under an Electron Beam: Insights from First-Principles Calculations“, J. Phys. Chem. Lett., 8 (2017) 3061.
  • L. Ma, Y. Tan, M. Ghorbani-Asl, R. Böttger, S. Kretschmer, S. Zhou, Z. Huang, A.V. Krasheninnikov, and F, Chen “Tailoring Optical Properties of Atomically-Thin WS2 via Ion Irradiation”, Nanoscale (2017) 9 (2017) 11027.
  • H.-P. Komsa, R. Senga, K. Suenaga, and A.V. Krasheninnikov “Structural Distortions and Charge Density Waves in Iodine Chains Encapsulated inside Carbon Nanotubes” Nano Letters 17 (2017) 3694.
  • O. I. Lebedev, S. Hébert, V. Roddatis, C. Martin, S. Turner, A.V. Krasheninnikov, Y. Grin, and A. Maignan “Revisiting hollandites: channels filling by main-group elements together with transition metals in Bi2-yVyV8O16”, Chemistry of Materials 29 (2017) 5558.
  • C. Herbig, T. Knispel, S. Simon, U.A. Schröder, A.J. Martínez-Galera, M.A. Arman, C. Teichert, J. Knudsen, A.V. Krasheninnikov, and T. Michely, “From Permeation to Cluster Arrays: Graphene on Ir(111) Exposed to Carbon Vapor”, Nano Letters 17 (2017) 3105.
  • M. Ghorbani-Asl, S. Kretschmer, D.E. Spearot, and A.V. Krasheninnikov, “Two-dimensional MoS2 under ion irradiation: from controlled defect production to electronic structure engineering”, 2D Materials 4 (2017) 025078.
  • H.-P. Komsa and A.V. Krasheninnikov, “Engineering the Electronic Properties of Two-Dimensional Transition Metal Dichalcogenides by Introducing Mirror Twin Boundaries”, Advanced Electronic Materials 3 (2017) 1600468.
  • L. Nguyen, H.-P. Komsa, E. Khestanova, R. Kashtiban, J.P. Peters, S. Lawlor1, A. M. Sanchez, J. Sloan, R. Gorbachev, I. Grigorieva, A.V. Krasheninnikov, S.J. Haigh, “Atomic defects and doping of monolayer NbSe2”, ACS Nano 11 (2017) 2894.
  • H. Vazquez, E.H. Ahlgren, O. Ochedowski, A.A. Leino, R. Mirzayev, R. Kozubek, H. Lebius, M. Karlusic, M. Jaksic, A.V. Krasheninnikov, J. Kotakoski, M. Schleberger, K. Nordlund, F. Djurabekova, “Creating nanoporous graphene with swift heavy ions”, Carbon 114 (2017) 511.
  • R. A. Wilhelm, E. Gruber, J. Schwestka, R. Kozubek, T.I. Madeira, J.P. Marques, J. Kobus, A. V. Krasheninnikov, M. Schleberger, and F. Aumayr, “Low energy electron splash from graphene driven by interatomic coulombic decay of a highly charged ion”, Phys. Rev. Lett. 119 (2017) 103401.
  • N. Berseneva, H.-P. Komsa, V. Vierimaa, T. Björkman, Z. Fan, A. Harju, M. Todorovic, A. V. Krasheninnikov, and R. M. Nieminen "Substitutional carbon doping of free-standing and Ru-supported BN sheets: A first-principles study”, J. Phys.: Condens. Matter 29 (2017) 415301.
  • X. Zhao, J. Kotakoski, J. C. Meyer, E. Sutter, P. Sutter, A. V. Krasheninnikov, U. Kaiser, and W. Zhou, “Engineering and modifying two-dimensional materials by electron beams” MRS Bulletin 42 (2017) 667.
  • Y. Liu, Zh. Li, L. Guo, X. Chen, Y. Yuan, C. Xu, R. Hübner, S. Akhmadaliev, A. V. Krasheninnikov, A.T. N’Diaye, E. Arenholz, M. Helm, and S. Zhou, “Towards diluted magnetism in TaAs”, Phys. Rev. Materials 1 (2017) 044203.
  • A. Hashemi, H.-P. Komsa, M. Puska and A. V. Krasheninnikov, “Vibrational properties of metal phosphorus trichalcogenides from first principles”, J. Phys. Chem. C 121 (2017) 27207.
  • P. Sutter, H.-P. Komsa, A. V. Krasheninnikov, Y. Huang, and E. Sutter, “Luminescence of defects in the structural transformation of layered tin dichalcogenides” Appl. Phys. Lett. 111 (2017) 262102.


  • T. Björkman, V. Skakalova, S. Kurasch, U. Kaiser, J.C. Meyer, J.H. Smet, and A.V. Krasheninnikov “Vibrational properties of a two-dimensional silica Kagome lattice”, ACS Nano 10 (2016) 10929.
  • E. Sutter, Y. Huang, H.-P. Komsa, M. Ghorbani-Asl, A.V. Krasheninnikov, and P. Sutter “Electron-Beam Induced Transformations of Layered Tin Dichalcogenides”, Nano Letters 16 (2016) 4410.
  • E. Gruber, R.A. Wilhelm, R. Petuya, V. Smejkal, R. Kozubek, A. Hierzenberger, B.C. Bayer, I. Aldazabal, A.K. Kazansky, F. Libisch, A.V. Krasheninnikov, M. Schleberger, S. Facsko, A.G. Borissov, A. Arnau, and F. Aumayr, “Ultrafast electronic response of graphene to a strong and localized electric field”, Nature Communications 7 (2016) 13948.
  • D. G. Kvashnin, M. Ghorbani-Asl, D. V. Shtansky, D. Golberg, A. V. Krasheninnikov, P. B. Sorokin, “Mechanical properties and current-carrying capacity of Al reinforced with graphene/BN nanoribbons: a computational study” Nanoscale 8 (2016) 20080.
  • V.V. Vierimaa, A.V. Krasheninnikov, and H.-P. Komsa “Phosphorene under electron beam: from monolayer to one-dimensional chains” Nanoscale 8 (2016) 7949.
  • D.G. Kvashnin, A.V. Krasheninnikov, D. Shtansky, P.B. Sorokin, and D. Golberg “Nanostructured BN – Mg Composite: Features of Interface Bonding and Mechanical Properties”, Phys. Chem. Chem. Phys. 18 (2016) 965.


  • X. Hu, T. Björkman, H. Lipsanen, L. Sun, and A. V. Krasheninnikov, "Solubility of Boron, Carbon, and Nitrogen in Transition Metals: Getting Insight into Trends from First-Principles Calculations" J. Phys. Chem. Lett., 6 (2015) 3263.
  • Y.-C. Lin, H.-P. Komsa, C.-H. Yeh, T. Björkman, Z.-Y. Liang, C.-H. Ho, Y.-S. Huang, P.-W. Chiu, A. V. Krasheninnikov, and K. Suenaga, “Single-Layer ReS2: Two-Dimensional Semiconductor with Tunable In-Plane Anisotropy”, ACS Nano 9 (2015) 11249.
  • C. Herbig, E. H. Åhlgren, U.A. Schröder, A.J. Martinez-Galera, M.A. Arman, J. Kotakoski, J. Knudsen, A. V. Krasheninnikov, and T. Michely, "Xe Irradiation of Graphene on Ir(111): From Trapping to Blistering” Phys. Rev. B 92 (2015) 085429.
  • M. M. Ervasti, Z. Fan, A. Uppstu, A. V. Krasheninnikov, and A. Harju "Silicon and silicon-nitrogen impurities in graphene: Structure, energetics, and effects on electronic transport", Phys. Rev. B 92 (2015) 235412.


Dr. Arkady Krasheninnikov

Lei­ter Atomistische Simulation ionen­induzier­ter Phänomene
Tel.: +49 351 260 3148