2020
DOI: 10.1039/d0ra06324j
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Influence of solvent mixture on nucleophilicity parameters: the case of pyrrolidine in methanol–acetonitrile

Abstract: Combined experiments and modelling rationalize the large influence of solvent composition on pyrrolidine nucleophilicity.

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Cited by 15 publications
(17 citation statements)
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“…Organic bases often show a solvent dependency in their basicity, and factors such as steric hindrance and the enthalpic and entropic contributions associated with the protonation of cyclic amines may exert an additional influence . Moreover, the nucleophilicity of secondary amines is also solvent dependent, , and an increased basicity and/or nucleophilicity for pyrrolidine compared to piperidine could impact side-product formation. To this end, we first investigated the efficiency of pyrrolidine removal from the resin by washing with selected binary solvent mixtures and then assessed the extent of the base-dependent side-reactions aspartimide and diketopiperazine (DKP) formation when using pyrrolidine as the base for Fmoc-removal.…”
Section: Resultsmentioning
confidence: 99%
“…Organic bases often show a solvent dependency in their basicity, and factors such as steric hindrance and the enthalpic and entropic contributions associated with the protonation of cyclic amines may exert an additional influence . Moreover, the nucleophilicity of secondary amines is also solvent dependent, , and an increased basicity and/or nucleophilicity for pyrrolidine compared to piperidine could impact side-product formation. To this end, we first investigated the efficiency of pyrrolidine removal from the resin by washing with selected binary solvent mixtures and then assessed the extent of the base-dependent side-reactions aspartimide and diketopiperazine (DKP) formation when using pyrrolidine as the base for Fmoc-removal.…”
Section: Resultsmentioning
confidence: 99%
“…As discussed in previous studies of the S N Ar reactions, 31–36 the application of the steady‐state approximation with respect to zwitterionic intermediate T ± to Scheme 1 gives the following relationship. On the other hand, if the rate‐determining step is the formation of zwitterionic intermediate T ± (i.e., k −1 < < ( k 2 + k 3 [aniline])), Equation (2) simplifies to Equation (3): kobsd=k1false(k2+k3[aniline]false)k1+k2+k3false[anilinefalse]false[anilinefalse], kobsd=k1aniline.…”
Section: Resultsmentioning
confidence: 86%
“…In a recent study, we showed that the second-order rate constants for the reactions of 7-X-4-nitrobenzofurazans 1 (1a, X = Cl, 1b,X=OC 6 H 5 and 1c: X = OCH 3 ) with secondary cyclic amines 2 (2a, morpholine, 2b, piperidine and 2c, pyrrolidine) in acetonitrile at 20°C [27,29] can be described by the linear free energy relationship log k = s N (N+ E), [45][46][47][48] and we determined the E parameters of these electrophiles 1a-c which are collected in Figure 12. We have now used these parameters E in order to elucidate the relationship between Mayr's electrophilicities E [45] and Parr's global electrophilicity index w values [49,50].…”
Section: Correlation Analysismentioning
confidence: 99%