Carbon Nanotube Modified by (O, N, P) Atoms as Effective Catalysts for Electroreduction of Oxygen in Alkaline Media

• Main Authors: Vera Bogdanovskaya, Inna Vernigor, Marina Radina, Vladimir Andreev, Oleg Korchagin, Vasilii Novikov
• Format: Article
• Language: English
• Published: MDPI AG 2020-08-01
• Series: Catalysts
• Subjects: carbon nanotube; functionalization; heteroatoms; electrochemically active surface; oxygen reduction reaction; corrosion stability
• Online Access: https://www.mdpi.com/2073-4344/10/8/892

The influence of the types and amounts of oxygen (O), nitrogen (N), and/or phosphorus (P) heteroatoms on the surface of carbon nanotubes (CNTs) on stability and catalytic activity in the oxygen reduction reaction (ORR) was investigated in alkaline media. It is shown that functionalization of CNTs leads to growth of the electrochemically active surface and to an increase in activity in the ORR. At the same time, a decrease in stability is observed after functionalization of CNTs under accelerated corrosion testing in alkaline media. These results are most significant on CNTs after functionalization in HNO₃, due to the formation of a large number of structural defects. However, subsequent doping with N and/or P atoms provides a further activity increase and enhances the corrosion stability of CNTs. Thus, as shown by the studies of characteristic parameters (electrochemical active surface values (<i>S</i>_EAS); <i>E</i>_1/2; corrosion stability), CNTs doped with N and NP are promising catalytic systems that can be recommended for use as fuel cell cathodes. An important condition for effective doping is the synthesis of carboxyl and carbonyl oxygen-containing groups on the surface of CNTs.