Inline purification in continuous flow synthesis – opportunities and challenges

• Jorge García-Lacuna and
• Marcus Baumann

Beilstein J. Org. Chem. 2022, 18, 1720–1740, doi:10.3762/bjoc.18.182

• chemistry tools developed in academia. Keywords: flow synthesis; inline purification; process development; reaction telescoping; scale-up; Introduction Continuous flow chemistry is a mature and widely applied platform technology that exploits intrinsic advantages over batch processing such as better heat

• and mass transfer, improved safety and scalability as well as the potential of reaction telescoping and automation [1][2]. Consequently, researchers from academia and the fine chemical industry have established flow technology as a complementary and oftentimes superior approach to traditional batch

Flow synthesis of oxadiazoles coupled with sequential in-line extraction and chromatography

• Kian Donnelly and
• Marcus Baumann

Beilstein J. Org. Chem. 2022, 18, 232–239, doi:10.3762/bjoc.18.27

• an integrated quenching and extraction step. Lastly, the use of an automated in-line chromatography system was exploited to realise a powerful flow platform for the generation of the heterocyclic targets. Keywords: chromatography; flow synthesis; in-line purification; oxadiazole; reaction

• telescoping; Introduction The application of enabling technologies in chemistry has received a surge in interest in recent years [1][2][3][4]. At the forefront of this revolution has been the advent of flow chemistry and its increasing utility in synthetic chemistry [5][6][7][8]. This is largely driven by

Coupling biocatalysis with high-energy flow reactions for the synthesis of carbamates and β-amino acid derivatives

• Alexander Leslie,
• Thomas S. Moody,
• Megan Smyth,
• Scott Wharry and
• Marcus Baumann

Beilstein J. Org. Chem. 2021, 17, 379–384, doi:10.3762/bjoc.17.33

• species. This strategy thus highlights the applicability of this work towards the creation of important chemical building blocks for the pharmaceutical and speciality chemical industries. Keywords: biocatalysis; CALB; Curtius rearrangement; flow synthesis; reaction telescoping; Introduction Continuous

• provide future chemists with hands-on experience in modern synthesis technologies. Apart from increased safety and scalability, reaction telescoping is one of the most attractive features of flow synthesis allowing for streamlined routes to minimize the need for the isolation and handling of potentially

Electron-transfer-initiated benzoin- and Stetter-like reactions in packed-bed reactors for process intensification

• Anna Zaghi,
• Daniele Ragno,
• Graziano Di Carmine,
• Carmela De Risi,
• Olga Bortolini,
• Pier Paolo Giovannini,
• Giancarlo Fantin and
• Alessandro Massi

Beilstein J. Org. Chem. 2016, 12, 2719–2730, doi:10.3762/bjoc.12.268

• homogeneous conditions and their subsequent utilization in transesterification and amidation processes by the reaction telescoping approach [12]. Similarly, the group of Brown reported on the oxidative esterification and amidation of aldehydes in undivided microfluidic electrolysis cells mediated by