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This power output corresponds to a specific power of about 3,300 milliwatt-hours per gramm, which is 10 times more than in commercial chemical cells or the previous nickel-63 nuclear battery designed at TISNCM. Photo of a prototype nuclear battery. Credit: Technological Institute for Superhard and Novel Carbon Materials
Chemical batteries, also known as galvanic cells, are characterized by a high power density —that is, the ratio between the power of the generated current and the volume of the battery. However, chemical cells discharge in a relatively short time, limiting their applications in autonomous devices.
The physicists developed and manufactured a betavoltaic battery using nickel-63 as the source of radiation and Schottky barrier-based diamond diodes for energy conversion.
The electrolyte pH in a zinc bromine redox flow battery is maintained in the range from 1 to 3. This range is determined by the zinc stability region in aqueous solutions, on the one hand (pH > 1), and by formation of bromate upon disproportionation of bromine (pH > 3), 86 on the other hand.
The prototype battery is characterized by the current-voltage curve shown in figure 3a. The open-circuit voltage and the short-circuit current are 1.02 volts and 1.27 microamperes, respectively. The maximum output power of 0.93 microwatts is obtained at 0.92 volts.
Current research interests: electrochemical investigations of redox flow batteries; redox reactions and electroactive components of RFB electrolytes; electrochemical evaluation of electroactive components of RFB electrolytes; development and testing of RFB prototypes and stacks based on them.
Moscow Institute of Physics and Technology is a top ranked Russian national research university by subject THE #71 Physical Science THE #72 Computer Science QS TOP 50 Physics & …
The performance of the designed polymer cathode is among the best ever reported for K-ion battery materials in terms of specific capacity, energy and power density. The polymer-based devices demonstrated record cycling …
All-solid-state battery technology promises improved safety, cycling performance, electrochemical stability, and possibility of device miniaturization and enables a number of breakthrough technologies towards the development of new high …
Science and Technology MISIS have optimized the design of a nuclear battery generating power from the beta decay of nickel-63, a radioactive isotope.
Russian researchers from the Moscow Institute of Physics and Technology (MIPT), the Technological Institute for Superhard and Novel Carbon Materials (TISNCM), and …
The battery is mainly manufactured using polymer and carbon – polymer composites. This is due to high chemical reactivity and corrosivity of bromine-containing …
Find 4631 researchers and browse 12 departments, publications, full-texts, contact details and general information related to Moscow Institute of Physics and Technology | Moscow, Russia | …
The new design developed by researchers from the Moscow Institute of Physics and Technology (MIPT), the Technological Institute for Superhard and Novel Carbon Materials (TISNCM), and the...
Russian researchers from the Moscow Institute of Physics and Technology (MIPT), the Technological Institute for Superhard and Novel Carbon Materials (TISNCM), and the National University...
Russian boffins at the Moscow Institute of Physics (MIPT) have emitted a prototype nuclear battery packing 3,300 milliwatt hours of energy per gram. The paper, …
Andrey CHEKANNIKOV, Research Engineer | Cited by 185 | of Moscow Institute of Physics and Technology, Moscow (MIPT) | Read 25 publications | Contact Andrey CHEKANNIKOV
2007: Professor at the Department of Innovation and High Technology of the Moscow Institute of Physics and Technology (MIPT) 2007: Joined Yandex, a major Russian tech company, and …
Andrey CHEKANNIKOV, Research Engineer | Cited by 185 | of Moscow Institute of Physics and Technology, Moscow (MIPT) | Read 25 publications | Contact Andrey CHEKANNIKOV
Andrey MARKEEV | Cited by 2,368 | of Moscow Institute of Physics and Technology, Moscow (MIPT) | Read 114 publications | Contact Andrey MARKEEV
These findings feature a considerable potential of organic potassium batteries for a broad range of applications, e.g., in the aerospace industry and other fields where stable …
Alexander SYUY, Principal Investigator | Cited by 1 | of Moscow Institute of Physics and Technology, Moscow (MIPT) | Read 5 publications | Contact Alexander SYUY
The NBIC department was established in the close cooperation with the renowned NRC "Kurchatov Institute", which has been a hub of cutting-edge science since the Soviet era. The …
All-solid-state battery technology promises improved safety, cycling performance, electrochemical stability, and possibility of device miniaturization and enables a number of breakthrough …
Moscow Institute of Physics and Technology is a top ranked Russian national research university by subject THE #71 Physical Science THE #72 Computer Science QS TOP 50 Physics & …
Master programs at Moscow Institute of Physics and Technology are taught in Russian and in English in the following areas: 01.04.02 Applied mathematics and Informatics; ... Chemical …
Degree Awarded: PhD Start: Start: Fall Semester (1st of October) Language of instruction: Russian/English* The duration of study: 3-4 years ECTS credits: 240 Fee 2021: Russian …
Moscow Institute of Physics and Technology. Many MIPT professors are leading Russian scientists, including over 80 members of the Russian Academy of Sciences. Learn more: …
The performance of the designed polymer cathode is among the best ever reported for K-ion battery materials in terms of specific capacity, energy and power density. The polymer-based …
The new design developed by researchers from the Moscow Institute of Physics and Technology (MIPT), the Technological Institute for Superhard and Novel Carbon Materials …