1996
DOI: 10.1016/0022-328x(95)05926-g
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Stable paramagnetic bis(alkynyl) manganese complexes

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Cited by 29 publications
(51 citation statements)
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“…The Mn±C 1 and Mn±C 3 bond lengths are similar (around 1.96 ä), and are in the same range as those found for symmetric transbis-alkynyl complexes. [51,53] The CC bond length in the tri- Synthesis of trans-iodo-alkynyl manganese species: Thus far, we have described the synthesis of asymmetrically substituted trans-bis-alkynyl manganese complexes using manganese vinylidene complexes as starting materials. Another seemingly convenient route for obtaining the required asymmetric Mn II trans-bis-alkynyl manganese complexes might be [47] As an alternative, conversion of the complex [Mn(MeC 5 H 4 )(dmpe)I] [60] with [Me 3 SnCCSiMe 3 ] and dmpe was considered, which indeed yielded the expected d 5 paramagnetic trans-iodo-alkynyl compound [Mn(dmpe) 2 (C CSiMe 3 )I] (9) (Scheme 3).…”
Section: (Cch)} 2 (M-c 4 )] [Pf 6 ] (11) By C±c Coupling Of [Mn(dmpe)mentioning
confidence: 99%
“…The Mn±C 1 and Mn±C 3 bond lengths are similar (around 1.96 ä), and are in the same range as those found for symmetric transbis-alkynyl complexes. [51,53] The CC bond length in the tri- Synthesis of trans-iodo-alkynyl manganese species: Thus far, we have described the synthesis of asymmetrically substituted trans-bis-alkynyl manganese complexes using manganese vinylidene complexes as starting materials. Another seemingly convenient route for obtaining the required asymmetric Mn II trans-bis-alkynyl manganese complexes might be [47] As an alternative, conversion of the complex [Mn(MeC 5 H 4 )(dmpe)I] [60] with [Me 3 SnCCSiMe 3 ] and dmpe was considered, which indeed yielded the expected d 5 paramagnetic trans-iodo-alkynyl compound [Mn(dmpe) 2 (C CSiMe 3 )I] (9) (Scheme 3).…”
Section: (Cch)} 2 (M-c 4 )] [Pf 6 ] (11) By C±c Coupling Of [Mn(dmpe)mentioning
confidence: 99%
“…These possibilities have been corroborated by recent studies in our group. [36,46,57,74,75,101] For instance, we have published the synthesis of redox-active dinuclear complexes of the type [{Mn(dmpe) 2 (X)} 2 (µ-C 4 …”
Section: Introductionmentioning
confidence: 99%
“…We have already reported some of the results involving manganese centers with strong-field ligands such as phosphanes. [36,46,57,63,74,75] We subsequently decided to synthesize and study the properties of molecules with weakfield ligands, such as tmeda, expecting high-spin configurations of the metal centers.…”
Section: Introductionmentioning
confidence: 99%
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“…[28][29][30][31][32][33][34][35][36] Such principal possibilities have been corroborated by recent studies by our group. [18][19][20][21][22][23] For such a process to be initiated in half-sandwich Mn I chemistry, we believed the complex [Mn(C 5 H 4 Me)(η 6 -cycloheptatriene)] (1) [37] would be an excellent starting material, since facile cycloheptatriene exchange could be expected to occur with electron donating ligands such as phosphanes or acetylenes. [38,39] Further reactivity with disubstituted tin acetylides was anticipated, thus leading to the desired dinuclear vinylidene species.…”
Section: Resultsmentioning
confidence: 99%