A retrospective-prospective survey of porphyrinoid fluorophores: towards new architectures as an electron transfer systems promoter

Porphyrins are photoactive molecules with an 18 electron π-conjugated system, and exposure to light promotes electrons to higher energy levels. They are currently gaining popularity because of their special applications’ unique optoelectronic properties. They also serve as fluorescent chemosensors for detecting different types of various chemicals. In this review, we will focus on the representative cases of porphyrinoid fluorophores according to the kinetic and mechanism of the electron/energy transfer process, including popular mechanisms like ICT, PET, FRET, PCET, 2PE, etc. This paper was divided into the following sections: the first is mainly about electron transfer (ET) mechanisms in porphyrinoid fluorophores for probing biological systems. The second section discusses the ET processes of hybridized material and quantum dots. Section three is regarding ET to characterize the interaction of porphyrinoids with model proteins. The combination of porphyrin components like dyad/triad and their characterizations was subjected in the fourth section.