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02007014 Plastics, Polymers
04008003 Micro- and Nanotechnology related to energy
03003 Power Supplies
05007007 Other medical/health related (not elsewhere classified)
06008 Energy Conservation Related
08002004 Robotics
Joint venture agreement
License agreement
Research cooperation agreement
Technical cooperation agreement
Electrode materials on the basis of carbon nanostructures, electrically conductive polimers and transition metal oxides for supercapacitors
POD Reference: Profile Type: Date: |
NSU 12851 TO 23.09.2019 |
Annotation
Russian Laboratory of Academic Novosibirsk University, specializing in the area of electrode materials research, developed a technology of hybrid nanostructures, having high electrical capacity, for supercapacitors creation. Usage of this technology allows to increase the capacity of capacitors up to 400 F/g (calculated using electrode material). Authors are looking for partners for joint research projects and creation of a production prototype.Description
Supercapacitors are the devices for the energy storage. Their capacity ranges from tens to hundreds of farads. To achieve this capacity it is necessary to use electrode materials with a large surface area, high conductivity, and chemical stability. Graphene materials and carbon nanotubes have all of these properties. In addition, they can be used as a three-dimensional template for the deposition of electroactive components: electrically conductive polymers or transition metal oxides. The specific capacity of such materials ranges from 200 to 500 F/g. The potential difference is from 1 to 4 V and depends on the electrolyte used in the device. Supercapacitors can be used in the cars, robots, medical equipment, and mobile devices. Current developments allow to create flexible and binder-free electrodes based on graphene materials or nanotubes, and it makes them promising for use in wearable electronic equipment.Advantages and Innovations
The main advantages of the technology for making new nanomaterials for supercapacitors are the following: - Using graphene materials or carbon nanotubes in supercapacitors is harmless to the environment when compared to the competitive materials. - The technology can be scalable. - High capacitance of electrode materials makes it possible to obtain capacitors with parameters comparable to those, which are most effective on the market or higher (capacity, stability, power). Developing electrode material can be used with large set of electrolytes that allows to vary conditions where they may be applied.Stage of Development
Available for demonstrationTechnology Keywords
02007010 Metals and Alloys02007014 Plastics, Polymers
04008003 Micro- and Nanotechnology related to energy
Market Keywords
01006002 Mobile communications, pagers and cellular radio03003 Power Supplies
05007007 Other medical/health related (not elsewhere classified)
06008 Energy Conservation Related
08002004 Robotics
IPR status
Secret Know-how
Cooperation
Type of Partnership Considered
Commercial agreement with technical assistanceJoint venture agreement
License agreement
Research cooperation agreement
Technical cooperation agreement
Type of Partner Sought
R&D Laboratories and Companies, interested in developing and creating of supercapacitorsPartner Area
Science, Production of devices for energy storageRole of Partner Sought
Participating in joint research project and creating production prototypePreferred Countries for Dissemination
Armenia; Austria; Belarus; Belgium; Brazil; Bulgaria; China; Croatia; Cyprus; Czech Republic; Denmark; Estonia; EU Countries; Finland; France; Germany; Greece; Hungary; Ireland; Italy; Kazakhstan; Latvia; Lithuania; Luxembourg; Malta; Netherlands; Poland; Portugal; Romania; Russian Federation; Slovakia; Slovenia; Spain; Sweden; United Kingdom;
Author
Type and Size of Client
UniversityRegion
Novosibirsk Oblast
Center
Center
Novosibirsk State UniversityRegion
Novosibirsk OblastWeb site
www.nsu.ru
Express interest
Express interest