Revealing substituent effects on the electronic structure and planarity of Ni-porphyrins

Barbee, Jenna; Kuznetsov, Aleksey E.

doi:10.1016/j.comptc.2011.11.049

Cited by 46 publications

(35 citation statements)

References 90 publications

(78 reference statements)

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“…Substituted metalloporphyrin complexes structure however is dependent on the central ion and their substituent group. It had been showed that substituted Ni(II)-porphyrin complexes exhibit a negatively curved structure (hyperbolic) with nearly perfect D2d symmetry with the amount of curvature that varies according to the substituent group [8]. Hg(II)-porphyrin complexes however exhibit a structure with positive curvature (elliptic) with nearly perfect C4v symmetry.…”

Section: Calculation Methods Validationmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

“…On the other side, porphyrin and its derivatives were also known for their unique photoreactivity [1,2] and narrow band gap for semiconductor applications. Some of porphyrin derivatives in the form of metalloporphyrin complexes has been proven to have the properties of a semiconductor materials such as Pt(II)-porphyrin, Fe(II)-porphyrin, Mg(II)-porphyrin and zinc group-porphyrin complexes [3][4][5][6][7][8].Metalloporphyrin complexes performance as semiconducting materials is determined by the central ion of the complexes and the functional group that is substituted on the porphyrin ring [5,9]. We have previously discussed how those factors help us to design a better metalloporphyrin semiconductor by looking into the electronic structures of some meso-substituted M(II)-porphyrin (M = Pt, Cd, Hg) [9].…”

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Molecular and Electronic Structure of Some Symmetrically meso-Substituted Hg(II)-Porphyrin Complexes

Aziz¹,

Santoso²,

Mulya³

et al. 2017

Asian J. Chem.

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INTRODUCTIONPorphyrin and its derivatives are known for their role in organism as part of enzymes, vitamins and even red blood cells. On the other side, porphyrin and its derivatives were also known for their unique photoreactivity [1,2] and narrow band gap for semiconductor applications. Some of porphyrin derivatives in the form of metalloporphyrin complexes has been proven to have the properties of a semiconductor materials such as Pt(II)-porphyrin, Fe(II)-porphyrin, Mg(II)-porphyrin and zinc group-porphyrin complexes [3][4][5][6][7][8].Metalloporphyrin complexes performance as semiconducting materials is determined by the central ion of the complexes and the functional group that is substituted on the porphyrin ring [5,9]. We have previously discussed how those factors help us to design a better metalloporphyrin semiconductor by looking into the electronic structures of some meso-substituted M(II)-porphyrin (M = Pt, Cd, Hg) [9]. In this paper we will further discussed the both electronic and molecular structure and properties of some meso-substituted Hg(II)-porphyrin. A theoretical study on the effect of substituent group on the molecular and electronic structure of some meso-substituted Hg(II)-porphyrin complexes using DFT-B3LYP/LanL2DZ method had been performed. The calculation result showed that the molecular structure of the complexes and density of states abundance of virtual orbital is independent of the substituent group effect. The band gap energy and density of states abundance of occupied orbital however is decrease for the complexes with electron donating group.

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Section: Calculation Methods Validationmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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confidence: 99%

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Molecular and Electronic Structure of Some Symmetrically meso-Substituted Hg(II)-Porphyrin Complexes

Aziz¹,

Santoso²,

Mulya³

et al. 2017

Asian J. Chem.

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“…These factors influence the electronic density distribution within the core of the macrocycle and thus determine its reactivity and stability, as well [6]- [8].…”

Section: Introductionmentioning

confidence: 99%

Distortions and Deformations of Metaled Meso-Substituted and Unsubstituted Porphyrins and Derivatives in Crystal Structures

Tsalu

Monama

Mambo

et al. 2016

CSTA

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How to cite this paper: Tsalu, P.V., et al. (2016) In the meso-substituted case, the external and internal twists C β -C α -C meso -X and N-C α -Cmeso-X, re-P. V. Tsalu et al. 2 spectively are oppositely orientated. Similar effect is observed in meso-unsubstituted of C β -C α -C meso -H and N-C α -C meso -H. However, the external distortions are more significant than internal. Considering the same order, the limit of distortions is [97˚ and 132˚ (−48˚)] for external and [91˚ (−89˚) and 52˚] for internal. In the two cases, the substituents have opposite directions of distortions. The meso-substituted porphyrins have a high limit of twisting than usubstituted one, depending of the weight of substituents. The average of the bond angular deformations is 168˚, almost planar. However, the limit of angular deformation is 94˚.

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“…1 showed the HOMO-LUMO energy gap of metalloporphyrin complexes. The previous study performed by Berbee and Kuznetsov [25] proved that electron donating group will destabilize the orbitals resulting in the decrease of band gap energy and increase of orbitals energy. Table 1 also showed that the band gap energy average increased in the series "HgP-R" -"CdP-R" -"PtP-R".…”

Section: Electronic Structurementioning

confidence: 99%

Design a better metalloporphyrin semiconductor: A theoretical studies on the effect of substituents and central ions

Mulya¹,

Santoso²,

Aziz³

et al. 2016

AIP Conference Proceedings

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A consistent and accurate ab initio parametrization of density functional dispersion correction (DFT-D) for the 94 elements H-Puwere chosen as the central metal to see the effect of the elements on the nature of the group and the same period and reviewed the effect of substituent groups pull and push the electrons to the electronic properties of complex metalloporphyrin. The DFT/B3LYP/LANL2DZ and TD-DFT calculation were used to generate the optimized structure of, electronic and photophysical properties. The parameter is an Eg complex compound, DOS, and electronic absorption spectra. The calculations showed electron donating complexes tend to be better as a semiconductor because it lowers Eg complex compounds metalloporphyrin, NH2 group gave the smallest Eg compared to other groups.

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Revealing substituent effects on the electronic structure and planarity of Ni-porphyrins

Cited by 46 publications

References 90 publications

Molecular and Electronic Structure of Some Symmetrically meso-Substituted Hg(II)-Porphyrin Complexes

Molecular and Electronic Structure of Some Symmetrically meso-Substituted Hg(II)-Porphyrin Complexes

Distortions and Deformations of Metaled Meso-Substituted and Unsubstituted Porphyrins and Derivatives in Crystal Structures

Design a better metalloporphyrin semiconductor: A theoretical studies on the effect of substituents and central ions

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