Thangaraj Thiruppathiraja scite author profile

This study investigates the nitrogen (N)-doped sumanene (SUMA) molecule's catalytic behavior for the four-electron oxygen reduction reaction (ORR) process. Accordingly, the N atom is doped at three different positions on the SUMA molecule to obtain the pyrrolic, pyridinic, and graphitic SUMA. The free energy value for the individual reaction processes in the four-electron reduction reaction shows high exothermicity and feasibility for the N-doped SUMA molecules.Moreover, the free energy for the entire four-electron reduction reaction lies well below the value of O 2 reduction into two water (H 2 O) molecules -474.71 kJ/mol.The N-doped SUMA molecules exhibit stronger adsorption energy despite being metal-free. The physisorption of the final product (H 2 O molecule) over the SUMA molecules suggests the possibility of regeneration of the catalyst, thereby controlling catalytic poisoning. Specifically, the graphitic SUMA shows a prominent catalytic behavior due to a lower highest occupied molecular orbital-lowest unoccupied molecular orbital energy gap, which arises due to the increased charge density of the carbon atoms present near the graphitic N site. Besides, doping carbon-based materials with N at the central benzene ring significantly enhances their catalytic efficiency due to localized π-orbitals. Overall, the results reveal that N-doped SUMA molecules are a promising metal-free catalyst for ORR activity.

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H, OH and COOH functionalized magnesium phthalocyanine as a catalyst for oxygen reduction reaction (ORR) – A DFT study

Thiruppathiraja

Arokiyanathan

Aazaad

et al. 2020

International Journal of Hydrogen Energy

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Multi-stimuli responsiveness of pyrimidine bishydrazone: AIE, tuneable luminescence, white light emission, mechanochromism, acidochromism and its anticounterfeiting applications

et al. 2023

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Green synthesis of benzimidazole derivatives by using zinc boron nitride catalyst and their application from DFT (B3LYP) study

Mahalingam

Murugesan

Thiruppathiraja

et al. 2022

Heliyon

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Catalytic activity of OH functionalized N-doped graphene in oxygen reduction reaction for fuel cell applications: a DFT study

Thiruppathiraja

Lakshmipathi

2023

Appl. Phys. A

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