Progress on ligands effects in porphyrin-based molecules in benzene solvent
for photodynamic therapy applications
a Department
of Engineering Physics, Institut Teknologi Bandung, Bandung, Indonesia
b Theoretical Physics Group, Department of Physics, Universitas Airlangga, Surabaya, Indonesia
b Theoretical Physics Group, Department of Physics, Universitas Airlangga, Surabaya, Indonesia
Abstract
Density
Functional Theory (DFT) calculations are carried out to investigate the ligands
effects on porphyrin-based molecule in benzene solvent environment. Benzene
solvent is modeled by PCM Tomasi. We are motivated to study the alternation of
electronic and geometric structure of porphyrin-based molecule in the presence
of ligands for achieving theoretical explanation about ligand porphyrin-based
behaviours. We aim to investigate the ligands effect on the groundstate
electronic structure of porphyrin-based molecules. This investigation will lead
us in better understanding on characteristic of porphyrin-based molecule as
photosensitizer in benzene solvent environment. We perform the electronic
structure calculation of ZnP, ZnTPP, ZnTBP, H2TPP and H2TBP in the ground
state. The results show that ligands distortion induces the point group
symmetry of ZnTBP, ZnTPP, H2TBP and H2TPP belong to the
trivial point group (C1) in benzene environment. Tetrabenzo ligand
distortions significantly change the Zn-N bond of ZnP. The energy difference
between HOMO and HOMO-1 is increasing in the present of ligand. We also report
that benzene solvent has only significant contribution to the alternation of EΔ of
porphyrin-based molecules. © 2013 IEEE.
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