Publications

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Filters: Author is P. Zemánek  [Clear All Filters]
2017
Accuracy and Mechanistic Details of Optical Printing of Single Au and Ag Nanoparticles. ACS nano, 11, 9678–9688 (2017201720172017).
Differentiation between Staphylococcus aureus and Staphylococcus epidermidis strains using Raman spectroscopy. Future Microbiology, 12, 10 (2017201720172017).
Dynamics of an optically bound structure made of particles of unequal sizes. Opt. Lett., 42, 1436-1439 (2017201720172017).
Effects of Infrared Optical Trapping on Saccharomyces cerevisiae in a Microfluidic System. Sensors, 17, 2640 (2017201720172017).
Morphological and Production Changes in Planktonic and Biofilm Cells Monitored Using SEM and Raman Spectroscopy. Microscopy and Microanalysis, 23, S1 (2017201720172017).
Omnidirectional Transport in Fully Reconfigurable Two Dimensional Optical Ratchets. Phys. Rev. Lett., 118, 138002 (2017201720172017).
Optical Binding of Nanowires. Nano Lett., 17, 3485-3492 (2017201720172017).
Rapid identification of staphylococci by Raman spectroscopy. Sci. Rep., 7, 14846 (2017201720172017).
Thermal tuning of spectral emission from optically trapped liquid-crystal droplet resonators. J. Opt. Soc. Am. B, 34, 1855-1864 (2017201720172017).
Thermally induced micro-motion by inflection in optical potential. Sci. Rep., 7, 1697 (2017201720172017).
2016
Chiral particles in the dual-beam optical trap. Opt. Express, 24, 26382-26391 (2016201620162016).
Direct measurement of the temperature profile close to an optically trapped absorbing particle. Opt. Lett., 41, 870-873 (2016201620162016).
Holographic Raman tweezers controlled by Multimodal Natural User Interface. J. Opt., 18, 015602:1-9 (2016201620162016).
Morphological and Production Changes in Stressed Red Yeasts Monitored Using SEM and Raman Spectroscopy. Microscopy and Microanalysis, 22, S3 (2016201620162016).
Noise-to-signal transition of a Brownian particle in the cubic potential: I. general theory. Journal of Optics, 18, 065401 (2016201620162016).
Noise-to-signal transition of a Brownian particle in the cubic potential: II. optical trapping geometry. Journal of Optics, 18, 065402 (2016201620162016).
Quantitative Raman Spectroscopy Analysis of Polyhydroxyalkanoates Produced by Cupriavidus necator H16. Sensors, 16, 1808 (2016201620162016).
Synchronization of colloidal rotors through angular optical binding. Phys. Rev. A, 93, 023842 (2016201620162016).
Thermally-induced passage and current of particles in highly unstable optical potential. Phys. Rev.E, 16, 042108 (2016201620162016).
2015
Binding of a pair of Au nanoparticles in a wide Gaussian standing wave. Opt. Rev., 22, 157-161 (2015201520152015).
Complex rotational dynamics of multiple spheroidal particles in a circularly polarized, dual beam trap. Opt. Express, 23, 7273-7287 (2015201520152015).
Cryo-SEM and Raman Spectroscopy Study of the Involvement of Polyhydroxyalkanoates in Stress Response of Bacteria. Microscopy and Microanalysis, 21, 183-184 (2015201520152015).
Identification of individual biofilm-forming bacterial cells using Raman tweezers. J. Biomed. Opt., 20, (2015201520152015).
Influence of Culture Media on Microbial Fingerprints Using Raman Spectroscopy. Sensors, 15, 29635-29647 (2015201520152015).
Monitoring of Multilayered Bacterial Biofilm Morphology by Cryo-SEM for Raman Spectroscopy Measurements. Microscopy and Microanalysis, 21, 187-188 (2015201520152015).
Non-spherical gold nanoparticles trapped in optical tweezers: shape matters. Opt. Express, 23, 8179-8189 (2015201520152015).
Optical trapping in secondary maxima of focused laser beam. J. Quant. Spectrosc. Radiat. Transf., 162, 114 - 121 (2015201520152015).
SEM and Raman Spectroscopy Applied to Biomass Analysis for Application in the Field of Biofuels and Food Industry. Microscopy and Microanalysis, 21, 1775-1776 (2015201520152015).
Three-Dimensional Optical Trapping of a Plasmonic Nanoparticle using Low Numerical Aperture Optical Tweezers. Sci. Rep., 5, 8106 (2015201520152015).

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