DEVELOPMENT OF MEMBRANE-ELECTRODE ASSEMBLIES PROTOTYPES BASED PLATINUM NANOCOMPOSITES FOR ENERGY SOURCES


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Аннотация

Electrode materials with platinum nanoparticles on combined polymer-carbon matrix-carriers had been formed. Model tests of hydrogen-air fuel cells with varying loading and sizes of platinum nanoparticles had been carried out. It was found that the maximum value of specific power (64 mW/cm2) and current density (122-128 mA/cm2) are achieved when the catalyst load was 0.32 mg/cm2 and the nanoparticle size was 2-4 nm.

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Авторлар туралы

Marina Lebedeva

MIREA - Russian Technological University

Email: lebedevamv@mitht.ru
Candidate of Chemical Sciences; associate professor of Physical Chemistry. Ya.K. Syrkin Moscow, Russian Federation

Alexey Antropov

MIREA - Russian Technological University

Email: alexeyantrop@yandex.ru
Candidate of Technical Sciences; associate professor, Department of Energy Technologies, Systems and Installations Moscow, Russian Federation

Alexander Ragutkin

MIREA - Russian Technological University

Email: ragutkin@mirea.ru
Candidate of Technical Sciences; vice-rector for Innovative Development Moscow, Russian Federation

Nicolay Yashtulov

MIREA - Russian Technological University

Email: yashtulovna@mail.ru
Doctor of Chemical Sciences; professor, Department of Energy Technologies, Systems and Installations Moscow, Russian Federation

Әдебиет тізімі

  1. Dicks A., Rand D.A.J. Fuel cell systems explained. Wiley, London, 2018. 479 p.
  2. Ozoemena K.I., Chen S. Nanomaterials for fuel cell catalysis. Springer, 2016. 583 p.
  3. Goodarzi G.A., Hayes J.G. Electric powertrain: energy systems, power electronics & drives for hybrid, electric & fuel cell vehicles. Wiley, London, 2018. 557 p.
  4. Яштулов Н.А., Лебедева М.В. Водородная энергетика возобновляемых источников тока // Российский технологический журнал. 2017. № 5. С. 58-73. [Yashtulov N.A., Lebedeva M.V. Hydrogen energy of renewable current sources. Russian Technological Journal. 2017. No. 5. Р. 58-73.]
  5. Lebedeva M.V., Antropov A.P., Ragutkin A.V., Yashtulov N.A. The electrode materials based on carbon nanotubes and polymer matrix modified with platinum catalysts for chemical power sources. International Journal of Applied Engineering Research. 2018. No. 13. P. 16774-16777.
  6. Яштулов Н.А., Лебедева М.В., Рагуткин А.В., Зайцев Н.К. Электродные материалы на основе пористого кремния с наночастицами платины для химических источников тока // Журнал прикладной химии. 2018. № 91. С. 232-237. [Yashtulov N.A., Lebedeva M.V., Ragutkin A.V., Zaitsev N.K. Porous silicon-based electrode materials with platinum nanoparticles for chemical current sources. Journal of Applied Chemistry. 2018. No. 91. P. 232-237.]
  7. Yashtulov N.A., Lebedeva M.V., Patrikeev L.N., Zaitcev N.K. New polymer-graphene nanocomposite electrodes with platinum-palladium nanoparticles for chemical power sources. eXPRESS Polymer Letters. 2019. No. 13. P. 739-748.
  8. Abouzari-Lotf E., Zakeri M., Nasef M.M. et al. Highly durable polybenzimidazole composite membranes with phosphonated graphene oxide for high temperature polymer electrolyte membrane fuel cells. Journal of Power Sources. 2019. No. 412. P. 238-245.

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