Thomas A. Klar
Publications most cited (ISI Web of Science)
> 1000 citations
Fluorescence microscopy with diffraction resolution barrier broken by stimulated emission, T. A. Klar, S. Jakobs, M. Dyba, A. Egner, and S. W. Hell, Proc. Natl. Acad. Sci. USA (PNAS), 97, 8206-8210 (2000), opens an external URL in a new window
Fluorescence quenching of dye molecules near gold nanoparticles: radiative and non-radiative effects, E. Dulkeith, A.C. Morteani, T. Niedereichholz, T.A. Klar, J. Feldmann, S. Levi, F.C.J.M. van Veggel, D.N. Reinhoudt, M. Möller, and D.I.Gittins, Phys. Rev. Lett. 89, 203002 (2002), opens an external URL in a new window
> 500 citations
Aqueous Synthesis of Thiol-Capped CdTe Nanocrystals: State-of-the-Art, A. L. Rogach, T. Franzl, T. A. Klar, J. Feldmann,N. Gaponik, V. Lesnyak, A. Shavel, A. Eychmüller, Y. P. Rakovich, and J. F. Donegan, J. Phys Chem C 111, 14628-14637 (2007), opens an external URL in a new window
Properties and Applications of Nonspherical Colloidal Noble Metal Nanoparticles, T.K. Sau, A.L. Rogach, F. Jäckel, T.A. Klar, and J. Feldmann, Advanced Materials 22, 1805 (2010), opens an external URL in a new window
Biomolecular Recognition Based on Single Gold Nanoparticle Light Scattering, G. Raschke, S. Kowarik, T. Franzl, C. Sönnichsen, T. A. Klar, J. Feldmann, A. Nichtl, and K. Kürzinger, Nano Letters 3, 935 (2003), opens an external URL in a new window
Surface-Plasmon Resonances in Single Metallic Nanoparticles, T. Klar, M. Perner, S. Grosse, G. von Plessen, W. Spirkl, and J. Feldmann, Phys. Rev. Lett. 80, 4249 (1998), opens an external URL in a new window
Gold nanoparticles quench fluorescence by phase induced radiative rate suppression, E. Dulkeith, M. Ringler, T. A. Klar, J. Feldmann, A. Munoz Javier, and W. J. Parak, Nano Letters 5, 585 (2005), opens an external URL in a new window
Subdiffraction resolution in far-field fluorescence microscopy, T. A. Klar and S. W. Hell, Optics Letters 24, 954 (1999), opens an external URL in a new window
> 200 citations
Plasmon emission in photoexcited gold nanoparticles, E. Dulkeith, T. Niedereichholz, T.A. Klar, J. Feldmann, G. von Plessen, D. I. Gittins, K. S. Mayya, and F. Caruso, Phys. Rev. B 70, 205424 (2004), opens an external URL in a new window
Shaping emission spectra of fluorescent molecules with single plasmonic nanoresonators, M. Ringler, A. Schwemer, M. Wunderlich, A. Nichtl, K. Kürzinger, T. A. Klar, and J. Feldmann, Physical Review Letters 100, 203002 (2008), opens an external URL in a new window
Exciton Recycling in Graded Gap Nanocrystal Structures, T. Franzl, T. A. Klar, S. Schietinger, A. L. Rogach, and J. Feldmann, Nano Letters 4, 1599 (2004), opens an external URL in a new window
Gold nanoshells improve single nanoparticle molecular sensors, G. Raschke, S. Brogl, A. S. Susha, A. L. Rogach, T. A Klar, J. Feldmann, B. Fieres, N. Petkov, T. Bein, A. Nichtl, and K. Kürzinger, Nano Letters 4, 1853 (2004), opens an external URL in a new window
Label-free Biosensing Based on Single Gold Nanostars as Plasmonic Transducers, S.K. Dondapati, T.K. Sau, C. Hrelescu et al., Acs Nano 4 (11), 6318-6322 (2010), opens an external URL in a new window
Fluorescence enhancement in hot spots of AFM-designed gold nanoparticle sandwiches, A. Bek, R. Jansen, M. Ringler, S. Mayilo, T. A. Klar, J. Feldmann, Nano Letters 8 (2), 485 (2008), opens an external URL in a new window
Bright white light emission from semiconductor nanocrystals: by chance and by design, Sameer Sapra, Sergiy Mayilo, Thomas A. Klar, Andrey L. Rogach, Jochen Feldmann, Advanced Materials 19, 569-572 (2007), opens an external URL in a new window
Breaking Abbe`s diffraction limit in fluorescence microscopy with stimulated emission depletion beams of various shapes, T.A. Klar, E. Engel, and S.W. Hell Phys. Rev. E 64, 066613, (2001), opens an external URL in a new window
> 100 citations
Energy transfer with semiconductor nanocrystals, A.L. Rogach, T.A. Klar, J.M. Lupton, A. Meijerink, J. Feldmann, J. Mat. Chem. 19, 1208 (2009), opens an external URL in a new window
Long-Range Fluorescence Quenching by Gold Nanoparticles in a Sandwich Immunoassay for Cardiac Troponin T, S. Mayilo, M. A. Kloster, M. Wunderlich, A. Lutich, T. A. Klar, A. Nichtl, K. Kürzinger, F. D. Stefani, J. Feldmann Nano Letters 9(12), 4558 (2009), opens an external URL in a new window
Electrically controlled light scattering with metal nanoparticles, J. Müller, C. Sönnichsen, H. von Poschinger, G. von Plessen, T. A. Klar, J. Feldmann, Appl. Phys. Lett. 81, 171 (2002), opens an external URL in a new window
Self-Assembled Binary Superlattices of CdSe and Au Nanocrystals and their Fluorescence Properties, E. Shevchenko, M. Ringler, A. Schwemer, D. V. Talapin, T. A. Klar, A. L. Rogach, J. Feldmann, P. Alivisatos Journal of the American Chemical Society 130, 3274 (2008), opens an external URL in a new window
Fast Energy Transfer in Layer-by-Layer Assembled CdTe Nanocrystal Bilayers, T. Franzl, D. S. Koktysh,T. A. Klar, A. L. Rogach, J. Feldmann, N. Gaponik Appl. Phys. Lett., 84, 2904 (2004), opens an external URL in a new window
120 nm resolution and 55 nm structure size in STED-lithography
R. Wollhofen, J. Katzmann, C. Hrelescu, J. Jacak, T.A. Klar
Optics Express 21 (9), 10831-10840 (2013), opens an external URL in a new window
Gold NanoStoves for Microsecond DNA Melting Analysis
J. Stehr, C. Hrelescu, R. A. Sperling, G. Raschke, M. Wunderlich, A. Nichtl, D. Heindl, K. Kürzinger, W. J. Parak, T. A. Klar, J. Feldmann
Nano Letters 8 (2), 619 (2008), opens an external URL in a new window
Negative-Index Metamaterials: Going Optical
Thomas A. Klar, Alexander V. Kildishev, Vladimir P. Drachev, and Vladimir M. Shalaev
IEEE Journal of Selected Topics in Quantum Electronics, 12, 1106 (2006), opens an external URL in a new window