Chiral amines are key building blocks for the development
of numerous
bioactive compounds. In this study, we developed a concurrent chemoenzymatic
cascade approach using ω-transaminase for the isomeric configuration
inversion of a racemic amine mixture. One isomer was transaminated
using ω-transaminase, generating coproduct ketones and an additional
chiral substance. Then, the mixture underwent selective reductive
amination of a ketone using a specially designed compatible nickel-based
nanocatalyst, which transformed coproduct ketone to racemic amines
while leaving the opposite enantiomer unchanged. The combination of
the two steps in one reaction system functions as an overall isomeric
configuration inversion system. Moreover, the desired chiral amines
with an additional chiral substance were formed. The procedure consumed
NH3 and generated H2O as the sole byproduct.
Graphene oxide (GO) and polyaniline (PANI) are very unique materials with broad potential in corrosion protection coating. To achieve the maximum stability and anti-corrosion effect in a polar medium, firstly itaconic acid doped PANI (DP) was readily prepared by a one-step method, followed by forming a GO and DP composite (GODP). Characterization by Fourier transform infrared spectroscopy and ultraviolet–visible absorption spectra provides evidence for the successful doping of itaconic acid in PANI. X-ray diffraction analysis shows that the d-spacing of the GO sheets increases slightly with the intercalation of DP. The morphological studies show disordered structures in GODP compared with the original GO sheets due to the introduction of PANI molecules and the interaction of functional groups on the surface of the GO sheets. Thermogravimetric analysis reveals the good thermal stability of DP and GODP. Quantum calculation further confirms the successful doping of itaconic acid, and the effective complex of GO and DP, providing a quantitative understanding of the curing mechanism. The crosslinking interaction among the GODP, curing agent, and epoxy resin facilitates the formation of a compact coating, leading to excellent corrosion resistance toward Mg alloy.
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