Body na spoluautora | Body za publikaci pro MU | Odkaz ISVaV | 1,86 | 16,73 | Mechanical and microwave absorbing properties of carbon-filled polyurethane
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0,00 | 0,00 | Plasma diagnostics using electron paramagnetic resonance
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14,84 | 59,37 | On the oxygen addition into nitrogen post-discharge
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0,00 | 0,00 | Passivation of iron nanoparticles synthesized in microwave plasma
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0,00 | 0,00 | Spectroscopic investigation of high power pulsed microwave discharge
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0,96 | 6,72 | Synthesis of Carbon Nanotubes in MW Plasma Torch with Different Methods of Catalyst Layer Preparation and their Applications
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0,00 | 0,00 | Absolute Density of N Atoms Produced by Dielectric Barrier Atmospheric Discharge
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0,00 | 0,00 | Výzkum a aplikace nízkoteplotního plazmatu na ÚFE PřF MU v Brně
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14,24 | 71,21 | Atmospheric pressure microwave torch for synthesis of carbon nanotubes
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0,00 | 0,00 | Characterisation of nitrogen-oxygen flowing afterglow
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0,00 | 0,00 | alpha-Fe Nanoparticles Prepared by Microwave Plasma Decomposition of Iron Pentacarbonyl
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0,00 | 0,00 | Iron-based nanoparticles synthesised by microwave plasma
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0,00 | 0,00 | Limits for H, N, O and O2 Detection by Means of Electron Paramagnetic Resonance
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0,00 | 0,00 | High power pulsed microvawe discharge: theory and experiment
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0,00 | 0,00 | Time resolved measurements of the N2-O2 afterglow
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0,00 | 0,00 | Study of High Power Pulsed Microwave Discharge Afterglow
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7,43 | 37,16 | Theoretical study of pulsed microwave discharge in nitrogen
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0,00 | 0,00 | Modeling of high power pulsed microwave discharge
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0,00 | 0,00 | Microwave Plasma Used for alpha-Fe Nanoparticles Synthesis
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0,00 | 0,00 | Investigation of High Power Pulsed Microwave Discharge
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0,00 | 0,00 | Microwave Plasma Used for alpha-Fe Nanoparticles Synthesis
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0,17 | 0,69 | Rate constant of HMDSO+O in plasma afterglow
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0,00 | 0,00 | Plasma Enchanced CVD of Carbon Nanotubes in Atmosferic Pressure Microwave Torch
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0,00 | 0,00 | Role of Oxygen Admixture on Nitrogen Afterglow
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3,79 | 11,36 | Organosilicon reactions with atoms: HMDSZ + N
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0,00 | 0,00 | Diagnostics of high power pulsed microwave discharge
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0,00 | 0,00 | Hydrogen line broadening in afterglow observed by means of EPR
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0,00 | 0,00 | Experimental Study and Modelling of the Afterglow of an N2-O2 Microwave Discharge
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2,27 | 11,36 | Hydrogen Line Broadeninig in Afterglow Observed by Means of EPR
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0,00 | 0,00 | Growth of Carbon Nanotubes in Microwave Plasma Torch at Atmospheric Pressure
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0,00 | 0,00 | Carbon nanotubes deposition by plasma enhanced chemical vapor deposition
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5,22 | 26,11 | Carbon nanotubes synthesis in microwave plasma torch at atmospheric pressure
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0,00 | 0,00 | Dissociation Increase Due to Admixtures
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1,65 | 8,24 | Dissociation increase due to admixtures
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0,00 | 0,00 | Influence of Oxygen Admixture on Nitrogen Capacitively Coupled Discharge
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0,00 | 0,00 | On Oxygen Added into Nitrogen Post-Discharge
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2,06 | 8,24 | Propagation of microwaves in dielectric waveguide surrounded by plasma
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0,00 | 0,00 | Optical emission spectroscopy of microwave plasma torch during deposition of carbon nanotubes
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0,00 | 0,00 | Nitrogen Atom Behaviour in N2 Post-Discharge
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12,05 | 48,22 | Self-consistent spatio-temporal simulation of pulsed microwave discharge
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0,00 | 0,00 | Processes in afterglow of N2-O2 discharges
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0,00 | 0,00 | Experimental Study of High Power Pulsed Microwave Discharge
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1,34 | 5,35 | Iron-based Nanocomposite Synthesised by Microwave Plasma Decomposition of Iron Pentacarbonyl
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0,00 | 0,00 | Increase of Nitrogen Dissociation Degree due to Oxygen Admixture to Nitrogen Post-Discharge
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0,00 | 0,00 | Evolution of nitrogen atom density in the nitrogen post-discharge with oxygen admixture
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0,00 | 0,00 | Determination of N2(A) population from optical emission spectra
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0,00 | 0,00 | Evolution of N and O atom densities for oxygen admixture added into nitrogen afterglow
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0,00 | 0,00 | Electron Density Measurement Using Self-Oscillating Resonant Cavity
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0,00 | 0,00 | Kinetics of O(3P) species in N2-O2 microwave post-discharge
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0,00 | 0,00 | Kinetic of O Species in Low-Pressure Microwave N2-O2 Afterglow
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0,00 | 0,00 | Model of pulsed microwave discharge
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0,00 | 0,00 | Plasmachemical Processes in Oxygen-Nitrogen Afterglow
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0,00 | 0,00 | Space and time dependent simulation of pulsed microwave discharge
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0,00 | 0,00 | Synthesis of alpha-Fe nanoparticles by microwave plasma
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0,00 | 0,00 | Vliv reakčního času na přesnost stanovení koncentrace atomů dusíku titrační metodou
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4,65 | 37,16 | An experimental study of high power microwave pulsed discharge in nitrogen
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(c) Michal Bulant, 2011