Development of a Continuously Operating Process for the Enantioselective Synthesis of a β‐Amino Acid Ester via a Solvent‐Free Chemoenzymatic Reaction Sequence

Abstract: A sequential, chemoenzymatic process for a continuously operating production of the chiral b-amino acid ester ethyl (S)-3-(benzylamino)-butanoate was developed. The reactor set-up combined a plug-flow reactor for the thermal aza-Michael addition of benzylamine to trans-ethyl crotonate coupled to a subsequent packed-bed reactor for the lipase (Novozym 435)-catalyzed kinetic resolution of the racemic intermediate product, which was formed in the initial step. The coupled reactors were operated continuously for a… Show more

“…This method allows for operative compartmentalization of chemo-and biocatalysts, as well as reaction conditions that avoid incompatibility problems. 40,[59][60][61] Then, with the aim to implement the chemoenzymatic process in a flow mode, the continuous reductive amination of HMF with methylamine using the Co@C catalyst and 2-MTHF as a solvent was first studied using a continuous fixed bed reactor. The contact time (CT) was optimized by varying the HMF concentration from 3.5 wt% (contact time = 7.7 h) (WHSV of 0.13 h −1 ) to 6.5 wt% (CT = 4 h) (WHSV of 0.25 h −1 ) (see Fig.…”

Chemoenzymatic synthesis of amino-esters as precursors of ammonium salt-based surfactants from 5-hydroxymethylfurfural (HMF)

“…This method allows for operative compartmentalization of chemo-and biocatalysts, as well as reaction conditions that avoid incompatibility problems. 40,[59][60][61] Then, with the aim to implement the chemoenzymatic process in a flow mode, the continuous reductive amination of HMF with methylamine using the Co@C catalyst and 2-MTHF as a solvent was first studied using a continuous fixed bed reactor. The contact time (CT) was optimized by varying the HMF concentration from 3.5 wt% (contact time = 7.7 h) (WHSV of 0.13 h −1 ) to 6.5 wt% (CT = 4 h) (WHSV of 0.25 h −1 ) (see Fig.…”

Chemoenzymatic synthesis of amino-esters as precursors of ammonium salt-based surfactants from 5-hydroxymethylfurfural (HMF)

“…136 Later, to decrease environmental impact, the isolation of the intermediates was simplified and chromatographic workup was avoided, which decreased the Environmental factor (E-factor) from 359 to 41. 137 In order to further optimise the process, reaction kinetics were simulated 138 to design an optimal scale-up with an improved reaction rate and increased stability of the catalyst. This resulted in a combination of a plug-flow reactor in which the aza-Michael addition takes place with a subsequent packed bed reactor, were the immobilized CaLB performs the enzymatic resolution via aminolysis.…”

Applied biocatalysis beyond just buffers – from aqueous to unconventional media. Options and guidelines

“…Combination of enzymatic and chemical catalysis for the synthesis of biopolyester in the so-called chemo-enzymatic reaction is described for the enantioselective synthesis of amino acid ester in free-solvent process. [40] Pellis et al investigated chain-length selectivity of Candida antarctica lipase B during the preparation of polyester from various C4-C10 diesters acids and C4-C8 diols. [41] The polymerization reaction was carried out in solventless media for 24 hours which led to monomer conversions up to 90% and polymers of molecular weights (Mw) of nearly 13KDa.…”

Bio-based polyesters for Ecofriendly packaging materials