The Hyperporphyrin Concept: A Contemporary Perspective
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https://hdl.handle.net/10037/28275Date
2022-06-30Type
Journal articleTidsskriftartikkel
Peer reviewed
Abstract
The Gouterman four-orbital model conceptualizes
porphyrin UV−visible spectra as dominated by four frontier
molecular orbitals-two nearly degenerate HOMOs and two
exactly degenerate LUMOS under D4h symmetry. These are well
separated from all the other molecular orbitals, and normal spectra
involve transitions among these MOs. Unusual spectra occur when
additional orbitals appear in this energy range, typically as a
consequence of the central coordinated atom. For example, metals
with empty d orbitals in a suitable energy range may lead to charge
transfer from porphyrin (ligand) to metal, that is, so-called LMCT
transitions. Metals with filled p or d orbitals may lead to charge
transfer from metal to porphyrin, MLCT transitions. These cases
lead to additional peaks and/or significant redshifts in the spectra
and were classified as hyperporphyrins by Gouterman. Cases in which spectra are blueshifted were classified as hypsoporphyrins;
they are common for relatively electronegative late transition metal porphyrins. Many of the same principles apply to porphyrin
analogues, especially corroles. In this Perspective, we focus on two newer classes of hyperporphyrins: one reflecting substituent
effects in protonated or deprotonated free-base tetraphenyporphyrins and the other reflecting “noninnocent” interactions between
central metal ions and corroles. Hyperporphyrin effects on spectra can be dramatic, yet they can be generated by relatively simple
changes and subtle structural variations, such as acid−base reactions or the selection of a central metal ion. These concepts suggest
strategies for engineering porphyrin or porphyrinoid dyes for specific applications, especially those requiring far-red or near-infrared
absorption or emission.
Publisher
American Chemical SocietyCitation
Wamser, Ghosh. The Hyperporphyrin Concept: A Contemporary Perspective. Journal of the American Chemical Society. 2022;2(7):1543-1560Metadata
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