The course involves mastering basic methods of battery electrode and fuel cell fabrication and their application in widespread and new generation energy accumulators including alkaline, lead-acid, lithium-ion and other rechargeable batteries and fuel cells. A big piece of attention is paid to electrode architecture and nanomaterial development, considering specificities of new-gen energy storage devices diagnostics. Considering the well-known and prospective methods of electrode production and their energy and structural property tests will allow students to obtain comprehensive knowledge and learn how to apply them in practice. Task completion with the use of modern equipment will allow to master the practical skills of energy storage device creation and control of its characteristics. These skills are necessary for students to continue professional activity. In addition, Summer School participants will obtain an opportunity to visit leading power companies in the city of Kazan.
—Mikhail V. Morozov, academic supervisor
Mikhail Morozov
Head of the Electrochemical laboratory, PhD
Academic program information
English
training language
80 000 RUR
participation fee
14 days
course duration
Bachelor course undergraduates
Engineering Master degree undergraduates
To pass the training successfully, B2 level of proficiency in English language is needed. You do not have to submit a language certificate
Современные технологии химических источников тока
Modern chemical power sources
Electrodes of chemical power sources
Technologies of alkaline and lead battery production
Technologies of supercapacitor and fuel cell production
Technologies of Li-ion battery production
Lab class: "Active paste fabrication"
Lab class: "Fabrication of electrodes for chemical power sources"
Fuel cell operation principles and methods of controlling them
Hydrogen power and fuel cell operation principles
Methods of fuel cell technical parameters control
Polarization characteristics
Impedance characteristics
Relaxation characteristics
Business project presentation
Nano-structured materials for rechargeable batteries and fuel cells
Nickel nano-structured microfibers for chemical power supplies
Nickel nano-structured microfibers for Li-ion rechargeable batteries
Organometallic compounds for fuel cells
Non-organic thin-film materials for chemical power supplies
Academic supervisor: Mikhail V. Morozov, PhD, Head of the Electrochemical laboratory E-mail: MVMorozov@kai.ru
Apply to the course right now! Shift 3 admission deadline: July, 10