FIELD: chemistry.
SUBSTANCE: invention can be used in manufacturing catalysts, anodes for production of aluminium, processors, electronic devices for data storage, bionolecule sensors, components of automobiles and planes, sport goods. First, bicontinuous microemulsion, containing, at least, 15 mmol of catalytic metal nanoparticles with average size 1-100 nm is obtained, with deviation of particle size from the average one being less than 10%. After that, obtained bicontinuous microemulsion is brought in contact with substrate, selected in such a way that it does not enter unintended reaction with active metal catalyst in the process of heating and that metal catalyst could catalyse target reaction of synthesis of carbon nanotubes by chemical precipitation from steam phase of gaseous carbon source.
EFFECT: obtained crystalline carbon nanotubes and/or meshes from crystalline carbon nanotubes are characterised by high mechanical strength, chemical stability, improved electric conductivity and dielectric permeability.
7 cl, 12 dwg, 1 tbl, 9 ex
| Title |
Year |
Author |
Number |
| SYSTEM FOR HIGHLY EFFICIENT CONVERSION AND ACCUMULATION OF ENERGY USING CARBON NANOSTRUCTURED MATERIALS |
2010 |
- Rouvala Markku Antti Kjuesti
- Vehj Di
- Amaratunga Gekhan
- Vang Khaolan
- Unalan Khusnu Ehmrakh
|
RU2469442C1 |
| METHOD OF MAKING CATALYTIC MATERIAL FOR FUEL CELL |
2009 |
- Glebova Nadezhda Viktorovna
- Nechitajlov Andrej Alekseevich
|
RU2421849C1 |
| METHODS AND DEVICES FOR THE SYNTHESIS OF CARBON NANOTUBES |
2018 |
|
RU2773037C2 |
| GRAPHENE NANO-TAPES, GRAPHENE NANO-PLATES AND MIXTURES THEREOF, AS WELL AS SYNTHESIS METHODS |
2018 |
|
RU2784523C2 |
| THIN-FILM SUBSTRATES CONTAINING CROSS-LINKED CARBON NANOSTRUCTURES, AND RELATED METHODS |
2018 |
- Ventura, Derril, N.
- Dolog, Rostislav
- Murugesan, Sankaran
- Suresh, Radkhika
- Khabashesku, Valerij, N.
- Darugar, Kusaj
|
RU2725266C1 |
| COATING WITH LOW REFLECTING CAPACITY, METHOD AND SYSTEM FOR SUBSTRATE COATING |
2016 |
- March, Natan Uilyam
- Shan, Dr Najguj
- Bustos-Rodriges, Susana
- Jensen, Ben Poul
- Krossli, Oliver
|
RU2717561C2 |
| METHOD FOR OBTAINING NANOCOMPOSITE |
2017 |
- Korusenko Petr Mikhajlovich
- Nesov Sergej Nikolaevich
- Povoroznyuk Sergej Nikolaevich
- Bolotov Valerij Viktorovich
- Pushkarev Aleksandr Ivanovich
|
RU2664525C1 |
| METHOD FOR PRODUCING MULTILAYER CUO/C NANOCOMPOSITE FILMS WITH SENSOR PROPERTIES IN WIDE SPECTRAL OPTICAL RANGE |
2023 |
- Pugachevskii Maksim Aleksandrovich
- Nei Ving Aung
|
RU2810420C1 |
| GROWING OF NANOTUBES FROM FREE ATOMS |
2017 |
|
RU2753099C2 |
| METHOD OF PRODUCING MODIFIED WITH METAL CARBON NANO STRUCTURES, FOUNDRY ALLOY FOR COMPOSITE MATERIALS BASED ON ALUMINIUM OR ALUMINIUM ALLOY AND ITS PRODUCTION METHOD |
2014 |
|
RU2593875C2 |
