Publikacje

Typ publikacji:Wszystko Książka Artykuł Rozdział
Lista filadelfijska:Wszystko Tak Nie  



2016
  • W. Jaskólski, M. Pelc, L. Chico, A. Ayuela,
    Existence of nontrivial topologically protected states at grain boundaries in bilayer graphene: signatures and electrical switching
    Nanoscale *8* (2016); 6079 - 6084

    DOI: DOI: 10.1039/C5NR08630B





2015
  • W. Jaskólski, L. Chico, A. Ayuela,
    Divacancy-induced ferromagnetism in graphene nanoribbons
    Phys. Rev. B. *91* (2015); 165427 - 165432

    DOI: 10.1103/PhysRevB.91.165427

  • M. Pelc, W. Jaskólski, A. Ayuela, L. Chico,
    Topologically confined states at corrugations of gated bilayer graphene
    Phys. Rev. B. *92* (2015); 085433 - 085433-8

    DOI: 10.1103/PhysRevB.92.085433





2014
  • W. Jaskólski, Andres Ayuela,
    Coulomb edge effects in graphene nanoribbons
    Solid State Commun. *196* (2014); 1 - 7

    DOI: 10.1016/j.ssc.2014.07.006

  • A. Ayuela, W. Jaskólski, H. Santos, L. Chico,
    Electronic properties of graphene grain boundaries
    New J. Phys. *16* (2014); 083018-1 - 083018-10

    DOI: doi:10.1088/1367-2630/16/8/083018





2013
  • W. Jaskólski, M. Pelc, A. Ayuela, L. Chico,
    Octagonal defects at carbon nanotube junctions
    ScientificWorldJournal *2013* (2013); 1 - 7

    DOI: doi:10.1155/2013/658292

  • M. Pelc, W. Jaskólski, Andres Ayuela, Leonor Chico,
    Octagonal defects as the source of gap states in graphene semiconductor structures
    Acta Phys. Pol. A *124* (2013); 777 - 780

    DOI: 10.12693/APhysPolA.124.777

  • M. Pelc, Leonor Chico, Andres Ayuela, W. Jaskólski,
    Grain boundaries with octagonal defects in graphene nanoribbons and nanotubes
    Phys. Rev. B. *87* (2013); 165427-1 - 165427-7

    DOI: 10.1103/PhysRevB.00.005400





2012
  • W. Jaskólski, M. Pelc, Leonor Chico, Andres Ayuela,
    Octagonal defect lines in graphene structures
    IEEE Conference on Nanotechnology *1* (2012); 1 - 5

    DOI: 10.1109/NANO.2012.6322188





2011
  • W. Jaskólski, Andres Ayuela, M. Pelc, Hernan Santos, Leonor Chico,
    Edge states and flat bands in graphene nanoribbons with arbitrary geometries
    Phys. Rev. B. *83* (2011); 235424 - 235429

    DOI: 10.1103/PhysRevB.83.235424

  • G. W. Bryant, M. Zieliński, N. Malkova, J. Sims, W. Jaskólski, J. Aizpurua,
    Controlling the optics of quantum dots with nanomechanical strain
    Phys. Rev. B. *84* (2011); 235412 - 235425

    DOI: 10.1103/PhysRevB.84.235412





2010
  • W. Jaskólski, M. Pelc, Hernan santos, Leonor Chico, Andres Ayuela,
    Interface bands in carbon nanotube superlattices
    Phys. Status Solidi C *7* (2010); 382 - 385

  • L. Chico, H. Santos, A. Ayuela, W. Jaskólski, M. Pelc, L. Brey,
    Unzipped and defective nanotubes: rolling up grapheme and unrolling tubes
    Acta Phys. Pol. A *118* (2010); 433 - 441

  • Garnett W. Bryant, M. Zieliński, N. Malkova, J. Sims, W. Jaskólski, Javier Aizpurua,
    Effect of mechanical strain on the optical properties of quantum dots: Controlling exciton shape, orientation, and phase with a mechanical strain
    Phys. Rev. Lett. *105* (2010); 067404-1 - 067404-4





2009
  • Hernan santos, Andres Ayuela, W. Jaskólski, M. Pelc, Leonor Chico,
    Interface states in carbon nanotube junctions: Rolling up graphene
    Phys. Rev. B. *80* (2009); 035436-1 - 035463-5





2008
  • W. Jaskólski, M. Pelc,
    Carbon nanotube superlattices in a magnetic field
    Int. J. Quantum Chem. *108* (2008); 2261 - 2266

  • Andres Ayuela, W. Jaskólski, M. Pelc, Hernan Santos, Leonor Chico,
    Friedel-like oscillations in carbon nanotube quantum dots
    Appl. Phys. Lett. *93* (2008); 133106-1 - 133106-3

  • Andres Ayuela, Leonor Chico, W. Jaskólski,
    Electronic band structure of carbon nanotube superlattices from first-principles calculations
    Phys. Rev. B. *77* (2008); 085435-1 - 085435-7

  • Leonor Chico, Andres Ayuela, M. Pelc, Hernan Santos, W. Jaskólski,
    Friedel oscillations in carbon nanotube quantum dots and superlattices
    Acta Phys. Pol. A *114* (2008); 1085 - 1091





2007
  • Jose Diaz, Garnett W. Bryant, W. Jaskólski, M. Zieliński,
    Theory of InP nanocrystals under pressure
    Phys. Rev. B. *76* (2007); 245433-1 - 245433-13

    DOI: 10.1103/PhysRevB.75.245433





2006
  • W. Jaskólski, M. Zieliński, Garnett Bryant, Javier Aizpurua,
    Strain effects on the electronic structure of strongly coupled self-assembled InAs/GaAs quantum dots: Tight-binding approach
    Phys. Rev. B. *74* (2006); 195339

  • W. Jaskólski, Leonor Chico,
    Symmetry and structural properties of of carbon nanotube quantum dots and superlattices
    J. Phys. Conf. Ser. *30* (2006); 230

  • Jose Diaz, W. Jaskólski, M. Zieliński, Garnett Bryant,
    Pressure-induced optoelectronic properties of InP nanocrystals: Tight-binding approach
    Phys. Status Solidi C *3* (2006); 3832

  • Jose Diaz, Garnett Bryant, W. Jaskólski,
    Optical fine structure of II-VI and III-V nanocrystals: the role of d orbitals in a tight-binding approach
    Phys. Status Solidi C *3* (2006); 3823

  • J. Planelles, J. Movilla, W. Jaskólski,
    From independent particles to Wigner crystalization: The effect of dielectric confinement
    Phys. Rev. B. *73* (2006); 35305-1 - 35305-4

  • Jose Diaz, M. Zieliński, W. Jaskólski, Garnett Bryant,
    Tight-binding theory of ZnS/CdS nanoheterostructures. The role of strain and d orbitals
    Phys. Rev. B. *74* (2006); 205309





2005
  • W. Jaskólski, M. Bylicki, Jose Diaz, A. Stachów,
    Resonance states of two-electron quantum dots
    Phys. Rev. B. *72* (2005); 075434 - (1-5)

    DOI: 10.1103/PhysRevB.72.075434

  • W. Jaskólski, M. Zieliński, A. Stróżecka, G. Bryant, J. Aizpurua,
    Quantum dot molecules and chains (2005); 257 - 268

  • W. Jaskólski, A. Stachów, L.Chico,
    Band sructure and quantum conductance of metallic carbon nanotube superlattices
    Acta Phys. Pol. A *108* (2005); 697

  • W. Jaskólski, Leonor Chico,
    Localized and conducting states in carbon nanotube superlattices
    Phys. Rev. B. *71* (2005); 155405-1 - 155405-5

  • M. Zieliński, W. Jaskólski, Javier Aizpurua, Garnett Bryant,
    Strain and spin-orbit effects in self assembled quantum dots
    Acta Phys. Pol. A *108* (2005); 929

  • Leonor Chico, W. Jaskólski, M.C. Lopez-Sancho, M.C. Munoz,
    Quantum confinement in carbon nanotube systems
    Int. J. Nanotechnol. *2* (2005); 103

  • Garnett Bryant, W. Jaskólski,
    Surface effects on capped and uncapped nanocrystals
    J. Phys. Chem. B *109* (2005); 19650





2004
  • W. Jaskólski, M. Zieliński, G. Bryant,
    Coupling and strain effects in vertically stacked double InAs/GaAs quantum dots: tight-binding approach
    Acta Phys. Pol. A *106* (2004); 193

  • A. Stróżecka, W. Jaskólski, M. Zieliński, G. Bryant,
    Stark effect in semiconductor nanocrystals: Tight-binding approach.
    Vacuum *74* (2004); 259

  • L. Chico, W. Jaskólski,
    Localized states and conductance gaps in metallic carbon nanotubes
    Phys. Rev. B. *69* (2004); 085406

  • Leonor Chico, W. Jaskólski,
    Localized states in metallic carbon nanotubes
    Microelectron. J. *35* (2004); 3





2003
  • W. Jaskólski, M. Zieliński, G. Bryant,
    Electronic properties of quantum-dot molecules
    Physica E *17* (2003); 40

  • Jose Diaz, W. Jaskólski, Josep Planelles, Garnett Bryant,
    Nanocrystal molecules and chains
    J. Chem. Phys. *119* (2003); 7484

  • J. Planelles, W. Jaskólski,
    kp Hamiltonians for quantum dots in a magnetic field
    J. Phys. Condens. Matter *15* (2003); L67

  • G. Bryant, W. Jaskólski,
    Tight-binding theory of quantum-dot quantum wells: Single particle effects and near band-edge structure
    Phys. Rev. B. *67* (2003); 205320

  • G.W. Bryant, J. Aizpurua, W. Jaskólski, M. Zieliński,
    Tunnel-Coupled Quantum Dots: Atomistic Theory of Quantum Dot Molecules and Arrays
    Mater. Res. Soc. Symp. Proc. *737 * (2003); E1.2.1 - E1.2.2

  • J. Aizpurua, G. Bryant, W. Jaskólski,
    Atomistic description of the electronic structure of T-shaped quantum wires
    Microelectron. J. *34* (2003); 603

  • I. Climente, J. Planelles, W. Jaskólski,
    Magnetooptical transitions in nanoscopic rings
    Phys. Rev. B. *68* (2003); 075307

  • J. Planelles, J. Diaz, I. Climente, W. Jaskólski,
    Magnetotransitions in multilayer nanocrystals
    J. Phys. Condens. Matter *15* (2003); 3593





2002
  • W. Jaskólski, Garnett Bryant, Josep Planelles, M. Zieliński,
    Artificial Molecules
    Int. J. Quantum Chem. *90* (2002); 1075

  • A. Thränhard et. al., W. Jaskólski,
    Dipole moment and radiative broadening of interface fluctuation quantum dots (2002); 129 - 130

  • Garnett Bryant, W. Jaskólski,
    Electronic structure of quantum-dot molecules and solids
    Physica E *13* (2002); 293

  • J. Planelles, J. Diaz, I. Climente, W. Jaskólski,
    Hole energy structure of multilayer nanocrystals in a magnetic field
    J. Phys. Condens. Matter *14* (2002); 1

  • J. Planelles, J. Diaz, I. Climente, W. Jaskólski,
    Multilayer nanocrystals in a magnetic field
    Phys. Rev. B. *65* (2002); 245302

  • R. Xie, G. Bryant, S. Lee, W. Jaskólski,
    Electron-hole correlations and optical gaps in quantum dot quantum wells: tight-binding approach
    Phys. Rev. B. *65* (2002); 235306

  • J.L. Sims, W.L. George, S.G. Satterfield, H. K. Hung, J. G. Hagedorn, P. M. Ketcham, T. J. Griffin, S. A. Hagstrom, J. C. Franiatte, G. W. Bryant, W. Jaskólski, N. S. Martys, C. E. Bouldin, V. Simmons, O. P. Nicolas, J. A. Warren, B. A. am Ende, J. E. Koontz, B. J. Filla, V. G. Pourprix, S. R. Copley, R. B. Bohn, A. P. Peskin, Y. M. Parker, J. E. Devaney ,
    Accelerating scientific discovery through computation and visualization II
    J. Res. Nat. Inst. Stand. Tech *107* (2002); 223





2001
  • W. Jaskólski, R. Oszwałdowski, Garnett Bryant,
    On boundary condition-induced states in low-dimensional semiconductor structures
    Vacuum *63* (2001); 191

  • W. Jaskólski, M. Bosek, M. Bylicki, Josep Planelles,
    Resonant states of quantum dots with donor impurity center in a magnetic field
    Vacuum *63* (2001); 185 - 190

  • Garnett Bryant, W. Jaskólski,
    Designing Nanocrystal Nanosystems: Quantum-dot quantum wells to quantum dot solids
    Phys. Status Solidi B *224* (2001); 751

  • Garnett Bryant, W. Jaskólski,
    Designing quantum dots and quantum- dot solids
    Physica E *11* (2001); 72

  • J. Planelles, W. Jaskólski, J.I. Aliaga,
    Energy structure of quantum rings in a magnetic field
    Phys. Rev. B. *65* (2001); 033306





2000
  • W. Jaskólski, G. Bryant,
    Excitons in quantum-dot quantum well structures (2000); 425 - 430