S Makarov



  1. Tiguntseva E, Chebykin A, Ishteev A, Haroldson R, Balachandran B, Ushakova E, et al. Resonant silicon nanoparticles for enhancement of light absorption and photoluminescence from hybrid perovskite films and metasurfaces. Nanoscale. 2017;9:12486-12493 pubmed publisher
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    Makarov S, Tsypkin A, Voytova T, Milichko V, Mukhin I, Yulin A, et al. Self-adjusted all-dielectric metasurfaces for deep ultraviolet femtosecond pulse generation. Nanoscale. 2016;8:17809-17814 pubmed
    ..5 ?W, respectively). The results pave the way to the creation of ultrathin nonlinear metadevices working at high laser intensities for efficient deep UV generation at the nanoscale. ..
  3. Dmitriev P, Makarov S, Milichko V, Mukhin I, Gudovskikh A, Sitnikova A, et al. Laser fabrication of crystalline silicon nanoresonators from an amorphous film for low-loss all-dielectric nanophotonics. Nanoscale. 2016;8:5043-8 pubmed publisher
  4. Berestennikov A, Li Y, Iorsh I, Zakhidov A, Rogach A, Makarov S. Beyond quantum confinement: excitonic nonlocality in halide perovskite nanoparticles with Mie resonances. Nanoscale. 2019;11:6747-6754 pubmed publisher
    ..On the other hand, for larger sizes (more than 50-100 nm), the influence of Mie modes increases, and the blue shift remains despite the fact that the effect of quantum confinement becomes much weaker. ..
  5. Zyuzin M, Baranov D, Escudero A, Chakraborty I, Tsypkin A, Ushakova E, et al. Photoluminescence quenching of dye molecules near a resonant silicon nanoparticle. Sci Rep. 2018;8:6107 pubmed publisher
    ..Our results prove the potential of high-index dielectric particles for spacer-free enhancement of photoluminescence, which potentially could be a future platform for bioimaging and nanolasers. ..
  6. Makarov S, Kolotova L, Starikov S, Zywietz U, Chichkov B. Resonant silicon nanoparticles with controllable crystalline states and nonlinear optical responses. Nanoscale. 2018;10:11403-11409 pubmed publisher
    ..This study allows the most optimal conditions for second harmonic generation to be revealed. We believe that the proposed method opens the door to fully controllable laser printing of functional nanoparticles and nanostructures. ..