Issue 35, 2021

A perspective on the redox properties of tetrapyrrole macrocycles

Abstract

Tetrapyrrole macrocycles serve a multitude of roles in biological systems, including oxygen transport by heme and light harvesting and charge separation by chlorophylls and bacteriochlorophylls. Synthetic tetrapyrroles are utilized in diverse applications ranging from solar-energy conversion to photomedicine. Nevertheless, students beginning tetrapyrrole research, as well as established practitioners, are often puzzled when comparing properties of related tetrapyrroles. Questions arise as to why optical spectra of two tetrapyrroles often shift in wavelength/energy in a direction opposite to that predicted by common chemical intuition based on the size of a π-electron system. Gouterman's four-orbital model provides a framework for understanding these optical properties. Similarly, it can be puzzling as to why the oxidation potentials differ significantly when comparing two related tetrapyrroles, yet the reduction potentials change very little or shift in the opposite direction. In order to understand these redox properties, it must be recognized that structural/electronic alterations affect the four frontier molecular orbitals (HOMO, LUMO, HOMO−1 and LUMO+1) unequally and in many cases the LUMO+1, and not the LUMO, may track the HOMO in energy. This perspective presents a fundamental framework concerning tetrapyrrole electronic properties that should provide a foundation for rational molecular design in tetrapyrrole science.

Graphical abstract: A perspective on the redox properties of tetrapyrrole macrocycles

Article information

Article type
Perspective
Submitted
02 5 2021
Accepted
24 8 2021
First published
07 9 2021

Phys. Chem. Chem. Phys., 2021,23, 19130-19140

Author version available

A perspective on the redox properties of tetrapyrrole macrocycles

J. R. Diers, C. Kirmaier, M. Taniguchi, J. S. Lindsey, D. F. Bocian and D. Holten, Phys. Chem. Chem. Phys., 2021, 23, 19130 DOI: 10.1039/D1CP01943K

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