Density functional theory calculations on the effect of adding messo-, and beta- halogens (F, Cl, and Br) on iron-porphyrin group: An application to hydrogen based fuel cell
The possibility of using oxygenase-based nanomaterials (Iron (II) porphyrin) in the cathode electrodes of PEFCs was investigated, where oxidation reduction reaction takes place (ORR). Specifically, we want to see the effects of halogens (F, Cl, and Br) placed on messo-, and beta- positions of iron p...
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oai:animorepository.dlsu.edu.ph:faculty_research-150532024-09-07T07:03:47Z Density functional theory calculations on the effect of adding messo-, and beta- halogens (F, Cl, and Br) on iron-porphyrin group: An application to hydrogen based fuel cell Pobre, Romeric F. Rabe, Rabin R. Feng, Ming Quevada, Nikko P. The possibility of using oxygenase-based nanomaterials (Iron (II) porphyrin) in the cathode electrodes of PEFCs was investigated, where oxidation reduction reaction takes place (ORR). Specifically, we want to see the effects of halogens (F, Cl, and Br) placed on messo-, and beta- positions of iron porphyrins, on the geometry, electron and spin density, total energy and binding energies of the said molecule by means of Density Functional Theory (DFT) for the proposed catalyst of the PEFC electrodes.Incorporating the halogens, fluorine, chlorine, and bromine to the subsequent positions (messo- and beta-) of iron porphyrin can lower the total energy thus making the molecule more stable. The results also show that increasing number of electronegative atoms lead to greater electron withdrawal from the non-halogen atoms in the FeP resulting to lower total energy. Fluorine being the most electronegative gives the lowest total energy followed by chlorine and bromine. Moreover, halogenations at messo- sites can cause bending of the iron porphyrin while halogenations on beta- sites protect structural deformation on the iron porphyrin upon oxygen adsorption. The position of the halogens, whether opposite or adjacent sides on both messo- and beta- positions, do not account for significant changes in total energy. We also found out that triplet state of halogenated derivatives that have small relative energy gap will correspond to lower binding energies and for singlet state, molecules with small relative energy gap will have higher relative binding energy. The energy gap and binding energies of halogenated iron porphyrin depends greatly on the electron density distribution of the molecule. These can be seen through HOMO/LUMO plot of the molecule being studied. 2006-01-01T08:00:00Z text https://animorepository.dlsu.edu.ph/faculty_research/13136 Faculty Research Work Animo Repository Density functionals Halogens Porphyrins Oxidation-reduction reaction Chemistry |
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Density functionals Halogens Porphyrins Oxidation-reduction reaction Chemistry Pobre, Romeric F. Rabe, Rabin R. Feng, Ming Quevada, Nikko P. Density functional theory calculations on the effect of adding messo-, and beta- halogens (F, Cl, and Br) on iron-porphyrin group: An application to hydrogen based fuel cell |
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The possibility of using oxygenase-based nanomaterials (Iron (II) porphyrin) in the cathode electrodes of PEFCs was investigated, where oxidation reduction reaction takes place (ORR). Specifically, we want to see the effects of halogens (F, Cl, and Br) placed on messo-, and beta- positions of iron porphyrins, on the geometry, electron and spin density, total energy and binding energies of the said molecule by means of Density Functional Theory (DFT) for the proposed catalyst of the PEFC electrodes.Incorporating the halogens, fluorine, chlorine, and bromine to the subsequent positions (messo- and beta-) of iron porphyrin can lower the total energy thus making the molecule more stable. The results also show that increasing number of electronegative atoms lead to greater electron withdrawal from the non-halogen atoms in the FeP resulting to lower total energy. Fluorine being the most electronegative gives the lowest total energy followed by chlorine and bromine. Moreover, halogenations at messo- sites can cause bending of the iron porphyrin while halogenations on beta- sites protect structural deformation on the iron porphyrin upon oxygen adsorption. The position of the halogens, whether opposite or adjacent sides on both messo- and beta- positions, do not account for significant changes in total energy. We also found out that triplet state of halogenated derivatives that have small relative energy gap will correspond to lower binding energies and for singlet state, molecules with small relative energy gap will have higher relative binding energy. The energy gap and binding energies of halogenated iron porphyrin depends greatly on the electron density distribution of the molecule. These can be seen through HOMO/LUMO plot of the molecule being studied. |
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text |
| author |
Pobre, Romeric F. Rabe, Rabin R. Feng, Ming Quevada, Nikko P. |
| author_facet |
Pobre, Romeric F. Rabe, Rabin R. Feng, Ming Quevada, Nikko P. |
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Pobre, Romeric F. |
| title |
Density functional theory calculations on the effect of adding messo-, and beta- halogens (F, Cl, and Br) on iron-porphyrin group: An application to hydrogen based fuel cell |
| title_short |
Density functional theory calculations on the effect of adding messo-, and beta- halogens (F, Cl, and Br) on iron-porphyrin group: An application to hydrogen based fuel cell |
| title_full |
Density functional theory calculations on the effect of adding messo-, and beta- halogens (F, Cl, and Br) on iron-porphyrin group: An application to hydrogen based fuel cell |
| title_fullStr |
Density functional theory calculations on the effect of adding messo-, and beta- halogens (F, Cl, and Br) on iron-porphyrin group: An application to hydrogen based fuel cell |
| title_full_unstemmed |
Density functional theory calculations on the effect of adding messo-, and beta- halogens (F, Cl, and Br) on iron-porphyrin group: An application to hydrogen based fuel cell |
| title_sort |
density functional theory calculations on the effect of adding messo-, and beta- halogens (f, cl, and br) on iron-porphyrin group: an application to hydrogen based fuel cell |
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Animo Repository |
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2006 |
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https://animorepository.dlsu.edu.ph/faculty_research/13136 |
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