Black Swan in Phase Transfer Catalysis: Influence of Mixing Mode on the Stereoselectivity of Glycosylation

Myachin, Ilya V.; Mamirgova, Zarina Z.; Stepanova, Elena V.; Zinin, Alexander I.; Chizhov, Alexander O.; Kononov, L. O.

doi:10.1002/ejoc.202101377

Cited by 16 publications

(27 citation statements)

References 114 publications

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“…Mixing is crucial to many process scale-up projects. [1][2][3][4] It affects a diverse range of chemically-intensive processes such as phase-transfer catalysis, [5][6][7][8] additive manufacturing, [9][10][11] fuel combustion, 12 flow chemistry, 13 powder formulation, 14,15 biotechnology, 16 and (most pertinent to this paper) myriad reaction scale-ups in tank reactors. [16][17][18][19][20] Mixing represents one of the most effective, non-chemical means of process improvement.…”

Section: Impact Of Mixingmentioning

confidence: 99%

Computer Vision for Kinetic Analysis of Lab- and Process-scale Mixing Phenomena

Barrington,

Dickinson,

McGuire

et al. 2022

Preprint

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A software platform for the computer vision-enabled analysis of mixing phenomena of relevance to process scale-up is described. By bringing new and known time-resolved mixing metrics under one platform, hitherto unavailable comparisons of pixel-derived mixing metrics are exemplified across non-chemical and chemical processes. The analytical methods described are applicable using any camera and across an appreciable range of reactor scales, from development through to process scale-up. A case study in nucleophilic aromatic substitution run on 5L-scale shows how camera and offline concentration measurements can be correlated. In some cases, it can be shown that camera data holds the power to predict reaction progress.

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Section: Impact Of Mixingmentioning

confidence: 99%

Computer Vision for Kinetic Analysis of Lab- and Process-scale Mixing Phenomena

Barrington,

Dickinson,

McGuire

et al. 2022

Preprint

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“…However, the reliable installation of sialic acid residues in oligosaccharides is a rather difficult issue and poor predictability remains characteristic of the sialylation reaction [ 16 – 21 ]. As in other glycosylation reactions [ 22 – 29 ], the result of sialylation is affected by a variety of variables [ 30 – 39 ] including the nature of protective groups on either partner [ 26 , 38 , 40 – 45 ] and concentration of reagents [ 31 , 33 – 34 37 , 39 , 43 – 44 46 ].…”

Section: Introductionmentioning

confidence: 99%

“…However, the reliable installation of sialic acid residues in oligosaccharides is a rather difficult issue and poor predictability remains characteristic of the sialylation reaction [16][17][18][19][20][21]. As in other glycosylation reactions [22][23][24][25][26][27][28][29], the result of sialylation is affected by a variety of variables [30][31][32][33][34][35][36][37][38][39] including the nature of protective groups on either partner [26,38,[40][41][42][43][44][45] and concentration of reagents [31,33,34,37,39,43,44,46]. During a study of a possible influence of remote acyl protective groups [23] on the sialylation outcome (which could become possible through participation in stabilization of glycosyl cation [24,47,48] in a conformation with all-axial substituents in the pyranose ring [49]…”

Section: Introductionmentioning

confidence: 99%

Comparison of glycosyl donors: a supramer approach

Orlova,

Malysheva,

Panova

et al. 2024

Beilstein J. Org. Chem.

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The development of new methods for chemical glycosylation commonly includes comparison of various glycosyl donors. An attempted comparison of chemical properties of two sialic acid-based thioglycoside glycosyl donors, differing only in the substituent at O-9 (trifluoroacetyl vs chloroacetyl), at different concentrations (0.05 and 0.15 mol·L−1) led to mutually excluding conclusions concerning their relative reactivity and selectivity, which prevented us from revealing a possible influence of remote protective groups at O-9 on glycosylation outcome. According to the results of the supramer analysis of the reaction solutions, this issue might be related to the formation of supramers of glycosyl donors differing in structure hence chemical properties. These results seem to imply that comparison of chemical properties of different glycosyl donors may not be as simple and straightforward as it is usually considered.

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“…Mixing is crucial to many process scale-up projects. − It affects a diverse range of chemically intensive processes such as phase-transfer catalysis, − additive manufacturing, − fuel combustion, flow chemistry, powder formulation, , biotechnology, and (most pertinent to this paper) myriad reaction scale-ups in tank reactors. − Indeed, it is well established that mixing in tank reactors is subject to micro-, meso-, and macro-mixing phenomena, all of which are sensitive to the chemistry, temperature, reactor geometry, and impeller shape, among other parameters . Mixing represents one of the most effective, non-chemical means of process improvement.…”

Section: Introductionmentioning

confidence: 99%

Computer Vision for Kinetic Analysis of Lab- and Process-Scale Mixing Phenomena

Barrington

Dickinson

McGuire

et al. 2022

Org. Process Res. Dev.

View full text Add to dashboard Cite

A software platform for the computer vision-enabled analysis of mixing phenomena of relevance to process scale-up is described. By bringing new and known time-resolved mixing metrics under one platform, hitherto unavailable comparisons of pixelderived mixing metrics are exemplified across non-chemical and chemical processes. The analytical methods described are applicable using any camera and across an appreciable range of reactor scales, from development through to process scale-up. A case study in nucleophilic aromatic substitution run on a 5 L scale in a stirred tank reactor shows how camera and offline concentration analyses can be correlated. In some cases, it can be shown that camera data hold the power to predict reaction progress.

show abstract

Black Swan in Phase Transfer Catalysis: Influence of Mixing Mode on the Stereoselectivity of Glycosylation

Cited by 16 publications

References 114 publications

Computer Vision for Kinetic Analysis of Lab- and Process-scale Mixing Phenomena

Computer Vision for Kinetic Analysis of Lab- and Process-scale Mixing Phenomena

Comparison of glycosyl donors: a supramer approach

Computer Vision for Kinetic Analysis of Lab- and Process-Scale Mixing Phenomena

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