Literature DB >> 35257447

Digitizing Chemical Synthesis in 3D Printed Reactionware.

Andrius Bubliauskas1, Daniel J Blair2, Henry Powell-Davies1, Philip J Kitson1, Martin D Burke2, Leroy Cronin1.   

Abstract

Chemistry digitization requires an unambiguous link between experiments and the code used to generate the experimental conditions and outcomes, yet this process is not standardized, limiting the portability of any chemical code. What is needed is a universal approach to aid this process using a well-defined standard that is composed of syntheses that are employed in modular hardware. Herein we present a new approach to the digitization of organic synthesis that combines process chemistry principles with 3D printed reactionware. This approach outlines the process for transforming unit operations into digitized hardware and well-defined instructions that ensure effective synthesis. To demonstrate this, we outline the process for digitizing 3 MIDA boronate building blocks, an ester hydrolysis, a Wittig olefination, a Suzuki-Miyaura coupling reaction, and synthesis of the drug sulfanilamide.
© 2022 The Authors. Angewandte Chemie International Edition published by Wiley-VCH GmbH.

Entities:  

Keywords:  3D Printing; Chemical Education; C−C Coupling; Reactionware; Unit Operations

Mesh:

Year:  2022        PMID: 35257447      PMCID: PMC9186708          DOI: 10.1002/anie.202116108

Source DB:  PubMed          Journal:  Angew Chem Int Ed Engl        ISSN: 1433-7851            Impact factor:   16.823


  24 in total

1.  Integrated 3D-printed reactionware for chemical synthesis and analysis.

Authors:  Mark D Symes; Philip J Kitson; Jun Yan; Craig J Richmond; Geoffrey J T Cooper; Richard W Bowman; Turlif Vilbrandt; Leroy Cronin
Journal:  Nat Chem       Date:  2012-04-15       Impact factor: 24.427

2.  Analysis of Past and Present Synthetic Methodologies on Medicinal Chemistry: Where Have All the New Reactions Gone?

Authors:  Dean G Brown; Jonas Boström
Journal:  J Med Chem       Date:  2015-12-01       Impact factor: 7.446

Review 3.  Automated oligosaccharide synthesis.

Authors:  Peter H Seeberger
Journal:  Chem Soc Rev       Date:  2007-08-20       Impact factor: 54.564

Review 4.  Automated Chemical Oligosaccharide Synthesis: Novel Approach to Traditional Challenges.

Authors:  Matteo Panza; Salvatore G Pistorio; Keith J Stine; Alexei V Demchenko
Journal:  Chem Rev       Date:  2018-06-28       Impact factor: 60.622

5.  Digitization of multistep organic synthesis in reactionware for on-demand pharmaceuticals.

Authors:  Philip J Kitson; Guillaume Marie; Jean-Patrick Francoia; Sergey S Zalesskiy; Ralph C Sigerson; Jennifer S Mathieson; Leroy Cronin
Journal:  Science       Date:  2018-01-19       Impact factor: 47.728

6.  A reagent-controlled SN2-glycosylation for the direct synthesis of β-linked 2-deoxy-sugars.

Authors:  John Paul Issa; Clay S Bennett
Journal:  J Am Chem Soc       Date:  2014-04-02       Impact factor: 15.419

7.  Automated solid-phase synthesis of oligosaccharides.

Authors:  O J Plante; E R Palmacci; P H Seeberger
Journal:  Science       Date:  2001-02-01       Impact factor: 47.728

8.  An automated multiplex oligonucleotide synthesizer: development of high-throughput, low-cost DNA synthesis.

Authors:  D A Lashkari; S P Hunicke-Smith; R M Norgren; R W Davis; T Brennan
Journal:  Proc Natl Acad Sci U S A       Date:  1995-08-15       Impact factor: 11.205

9.  A short, novel, and cheaper procedure for oligonucleotide synthesis using automated solid phase synthesizer.

Authors:  Quanlai Song; Zhiwei Wang; Yogesh S Sanghvi
Journal:  Nucleosides Nucleotides Nucleic Acids       Date:  2003 May-Aug       Impact factor: 1.381
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  1 in total

1.  Autonomous Chemical Experiments: Challenges and Perspectives on Establishing a Self-Driving Lab.

Authors:  Martin Seifrid; Robert Pollice; Andrés Aguilar-Granda; Zamyla Morgan Chan; Kazuhiro Hotta; Cher Tian Ser; Jenya Vestfrid; Tony C Wu; Alán Aspuru-Guzik
Journal:  Acc Chem Res       Date:  2022-08-10       Impact factor: 24.466
  1 in total

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