Kuo, Mei-Tsan’s team published research in Journal of Physical Chemistry A in 2021 | CAS: 156-87-6

3-Aminopropan-1-ol(cas: 156-87-6) belongs to anime. Amines characteristically form salts with acids; a hydrogen ion, H+, adds to the nitrogen. With the strong mineral acids (e.g., H2SO4, HNO3, and HCl), the reaction is vigorous. Salt formation is instantly reversed by strong bases such as NaOH. Neutral electrophiles (compounds attracted to regions of negative charge) also react with amines; alkyl halides (R′X) and analogous alkylating agents are important examples of electrophilic reagents.Formula: C3H9NO

Formula: C3H9NOIn 2021 ,《Substituent Effect in the Reactions between Criegee Intermediates and 3-Aminopropanol》 was published in Journal of Physical Chemistry A. The article was written by Kuo, Mei-Tsan; Yang, Jie-Ning; Lin, Jim Jr-Min; Takahashi, Kaito. The article contains the following contents:

Via intramol. H atom transfer, 3-aminopropanol is more reactive toward Criegee intermediates, in comparison with amines or alcs. Here we accessed the substituent effect of Criegee intermediates in their reactions with 3-aminopropanol. Through real-time monitoring the concentrations of two Criegee intermediates with their strong UV absorption at 340 nm, the exptl. rate coefficients at 298 K (100-300 Torr) were determined to be (1.52 ± 0.08) x 10-11 and (1.44 ± 0.22) x 10-13 cm3 s-1 for the reactions of 3-aminopropanol with (CH3)2COO (acetone oxide) and CH2CHC(CH3)OO (Me vinyl ketone oxide), resp. Compared to our previous exptl. value for the reaction with syn-CH3CHOO, (1.24 ± 0.13) x 10-11 cm3 s-1, we can see that the Me substitution at the anti position has little effect on the reactivity while the vinyl substitution causes a drastic decrease in the reactivity. Our theor. calculations based on CCSD(T)-F12 energies reproduce this 2-order-of-magnitude decrease in the rate coefficient caused by the vinyl substitution. Using the activation strain model, we found that the interaction of Criegee intermediates with 3-aminopropanol is weaker for the case of vinyl substitution. This effect can be further rationalized by the delocalization of the LUMO for the vinyl-substituted Criegee intermediates. These results would help us better estimate the impact of similar reactions like the reactions of Criegee intermediates with water vapor, some of which could be difficult to measure exptl. but can be important in the atm. We also found that the B2PLYP-D3BJ/aug-cc-pVTZ calculation can reproduce the CCSD(T)-F12 reaction barrier energies within ca. 1 kcal mol-1, indicating that the use of the B2PLYP-D3BJ method is promising for future predictions of the reactions of larger Criegee intermediates. In the experimental materials used by the author, we found 3-Aminopropan-1-ol(cas: 156-87-6Formula: C3H9NO)

3-Aminopropan-1-ol(cas: 156-87-6) belongs to anime. Amines characteristically form salts with acids; a hydrogen ion, H+, adds to the nitrogen. With the strong mineral acids (e.g., H2SO4, HNO3, and HCl), the reaction is vigorous. Salt formation is instantly reversed by strong bases such as NaOH. Neutral electrophiles (compounds attracted to regions of negative charge) also react with amines; alkyl halides (R′X) and analogous alkylating agents are important examples of electrophilic reagents.Formula: C3H9NO

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