반응 #1106609

ord-af76a1cf06114976a3ee857faf416b26

반응 방정식

CNCCOCCNC
BMAOP
CNCCOCCNC
1,5-bis(methylamino)-3-oxapentane
CN(C)C(=N)N(C)C
1,1,3,3-tetramethylguanidine
CNCCOCCNC
BMAOP
N=C(N)N
guanidine
NC(N)=[NH2+]
guanidinium
O=C=O
CO2
CN(C)C(=N)N(C)C
tetramethylguanidine
NC(=O)[O-]
carbamate

반응 조건

상세 조건
See reaction.notes.procedure_details.

후처리

  1. 1
    기타to form

실험 절차

A procedure similar to Examples 1 and 2 was carried out using a ˜1:˜2.1 mixture of 1,5-bis(methylamino)-3-oxapentane (BMAOP) with pKa ˜9.87 and 1,1,3,3-tetramethylguanidine (˜1:1.05 mixture on the basis of amine sites) for ˜2 hours. Only one product, a mixed dicarbamate (monocarbamate at each amine site), appeared to form. The 1H NMR spectrum after carboxylation showed movement of the guanidinium protons (in relatively fast equilibrium with any remaining guanidine protons) downfield to ˜9.92 ppm, plus movement of the amine —NCH2— backbone resonance from ˜2.6 to ˜3.2-3.4 ppm. That most of BMAOP molecules reacted was confirmed by the absence of free peaks. Based on integration of the product peak at ˜161.6 ppm compared to the sharp C—O peak of DMAOP at ˜69.89 ppm, ˜99.7 mol % of BMAOP molecules were calculated to have reacted with CO2 to form a mixed carbamate with tetramethylguanidine. The difunctional BMAOP molecules appeared to react with two pairs of tetramethylguanidine and CO2 to form two mixed carbamate moieties per molecule at room temperature (˜199.4 mol % of CO2 per DMAOP molecule).

출처

DOI: 10.6084/m9.figshare.5104873.v1특허: US08715397B2uspto-grants-2014_05