| 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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| 14,50 | 43,49 | Modelling of the reactive sputtering process with non-uniform discharge current density and different temperature conditions
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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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| 2,78 | 19,45 | Synthesis of carbon nanotubes and iron oxide nanoparticles in MW plasma torch with Fe(CO)5 in gas feed
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| 4,00 | 12,00 | Wireless temperature measurement in the hot filament CVD reactor for deposition of carbon nanotubes
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| 0,00 | 0,00 | Advanced modeling of reactive sputtering process with non-linear discharge current density
|
| 14,24 | 71,21 | Atmospheric pressure microwave torch for synthesis of carbon nanotubes
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| 0,00 | 0,00 | FUNCTIONALIZATION OF CARBON NANOTUBES IN LOW PRESSURE CAPACITIVE COUPLED RF DISCHARGE
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| 0,00 | 0,00 | Influence of N2 and CH4 on depositon rate of boron based thin films prepared by magnetron sputtering
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| 0,00 | 0,00 | Influence of N2 and CH4 on deposition rate of boron based thin films prepared by magnetron sputtering
|
| 0,00 | 0,00 | Hybrid PVD-PECVD sputtering deposition process - from properties of deposited films to process characteristics
|
| 1,56 | 4,68 | Study of the mechanical properties of thin films using combined nanoindentation and AFM measurements
|
| 4,91 | 14,72 | Study of carbon films on silicon substrate
|
| 0,00 | 0,00 | Odbourávání nikotinu na fotoaktivních katalyzátorech různé provenience
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| 0,00 | 0,00 | Plasma Enchanced CVD of Carbon Nanotubes in Atmosferic Pressure Microwave Torch
|
| 0,00 | 0,00 | Redukce wolframanových prekurzorů v plazmatu buzeném ve směsi vodíku a vhodného uhlovodíku
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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 nanostructures synthesis in microwave plasma torch at atmospheric pressure
|
| 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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| 2,06 | 8,24 | Carbon nanotubes synthesized by plasma enhanced CVD: Preparation of measurement of their electrical properties
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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 | Photocatalytic properties of plasma treated tungsten oxide
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| 0,00 | 0,00 | Optimalization of Carbon Nanotube Preparation in Atmospheric Pressure Microwave Torch
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| 0,00 | 0,00 | Optical Emission Spectroscopy of Plasmachemical Processes for Deposition of Carbon Nanotubes
|
| 1,04 | 9,36 | Porovnání různých plasmochemických procesů s ohledem na teplotu plynů
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| 0,00 | 0,00 | Modeling of Radial Variation of Target Poisoning During Reactive Sputtering Deposition Process
|
| 0,00 | 0,00 | Role of Neutral Gas Temperature on Hysteresis Behaviour of Reactive Sputtering Deposition Process
|
| 2,45 | 9,81 | Discussion of important factors in deposition of carbon nanotubes by atmospheric pressure microwave plasma torch
|
| 7,35 | 36,76 | Characterization of Carbon Nanotubes Deposited in Microwave Torch at Atmospheric Pressure
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| 0,00 | 0,00 | The instrumented indentation test - powerful tool in development of new materials
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| 0,00 | 0,00 | Gas Pressure Sensor Based on PECVD Grown Carbon Nanotubes
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| 1,56 | 14,04 | Comparison of various plasmachemical processes with respect to the gas temperature
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| 13,42 | 107,38 | Carbon Nanotubes Functionalized in Oxygen and Water Low Pressure Discharges used as Reinforcement of Polyurethane Composites
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| 0,00 | 0,00 | Model of reactive magnetron sputtering process with non-uniform discharge current density
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| 0,00 | 0,00 | Polyurethane composite with carbon nanotube filler and its properties
|
| 0,00 | 0,00 | Structural dependence of photocatalytic properties of tungsten oxide
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| 0,00 | 0,00 | Structural dependence of photocatalytic properties of tungsten oxide
|
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(c) Michal Bulant, 2011