2022
DOI: 10.1002/chem.202201513
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Two Rhodium(III) Ions Confined in a [18]Porphyrin Frame: 5,10,15,20‐Tetraaryl‐21,23‐Dirhodaporphyrin

Abstract: Tetraaryl‐21,23‐dirhodaporphyrin and a series of related monorhodaporphyrins have been obtained by tellurium‐to‐rhodium exchange in a reaction of tetraaryl‐21,23‐ditelluraporphyrin with [RhCl(CO)2]2. These organometallic metallaporphyrins contain rhodium(III) centers embedded in rhodacyclopentadiene rings, incorporated within the porphyrin frames. The skeletons of 21,23‐dirhodaporphyrin and 21‐rhoda‐23‐telluraporphyrin are strongly deformed in‐plane from the rectangular shape typical for porphyrins, due to rho… Show more

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Cited by 4 publications
(17 citation statements)
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“…Taking into account several analogies between 21,23ditelluraporphodimethene and 21,23-ditelluraporphyrin metalation products observed for palladium, platinum, and rhodium, as depicted above and reported previously, 4,18,19 we postulate that the reaction path leading from 1 to 21-metalla-23porphodimethenes is similar to that recognized in our former studies for 21,23-ditelluraporphyrin. Thus, the tellurium-tometal exchange commences with a side-on complex formation, then follows an insertion of a metal ion into the C−Te bond, with the formation of a reactive species including a six-membered TeMC 4 ring, and finally an extrusion of tellurium occurs to obtain a metallaporphyrinoid.…”
Section: ■ Results and Discussionsupporting
confidence: 86%
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“…Taking into account several analogies between 21,23ditelluraporphodimethene and 21,23-ditelluraporphyrin metalation products observed for palladium, platinum, and rhodium, as depicted above and reported previously, 4,18,19 we postulate that the reaction path leading from 1 to 21-metalla-23porphodimethenes is similar to that recognized in our former studies for 21,23-ditelluraporphyrin. Thus, the tellurium-tometal exchange commences with a side-on complex formation, then follows an insertion of a metal ion into the C−Te bond, with the formation of a reactive species including a six-membered TeMC 4 ring, and finally an extrusion of tellurium occurs to obtain a metallaporphyrinoid.…”
Section: ■ Results and Discussionsupporting
confidence: 86%
“…For 2 and 3 (spectra C and D), the β-protons of metallacyclopentadiene rings, involved in the π-conjugation, have relatively large chemical shifts (7.9–7.4 ppm in CDCl 3 ) and due to the presence of spin active nuclei, 103 Rh ( I = 1/2, 100%) and 195 Pt ( I = 1/2, 33.8%), show patterns which are diagnostic for these structures. The rhodacyclopentadiene protons in 2 give characteristic doublets of doublets ( 3 J HH = 3.9 Hz, 3 J RhH = 1.2–1.4 Hz), best resolved in the spectrum measured in deuterated benzene at 350 K. These relatively small coupling constants are similar to those observed for aromatic rhodaporphyrins ( 3 J HH 4.6–5.2 Hz; 3 J RhH 0.7–2.3 Hz) …”
Section: Spectroscopic Studiesmentioning
confidence: 53%
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