Hansjörg Lehmann scite author profile

The paper will describe the use of flow chemistry for scaling up exothermic or hazardous nitration reactions. Such reactions often cause time delays to the delivery of larger batches of intermediates or final compounds for medicinal chemistry projects, because considerable time is required for safety evaluation and, if necessary, modification of the procedure so that it can be scaled-up and run in a safe manner. A commercially available continuous flow reactor was used in the scale up of three challenging nitrations including a reaction involving a potentially explosive mixture of acetic acid and fuming nitric acid, with a productivity of 97 g/h.

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Scale-Up of Microwave-Assisted Reactions in a Multimode Bench-Top Reactor

Dallinger

Lehmann

Moseley

et al. 2011

Org. Process Res. Dev.

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An evaluation of a new bench-top microwave batch reactor that uses a single 1 L reaction vessel is presented. Several microwave-assisted organic reactions have been scaled-up, including Newman Kwart and DielsÀAlder reactions, Pd-catalyzed crosscouplings, heterocycle synthesis, aromatic substitution, and a Knoevenagel condensation. A range of different solvents (high and low microwave absorbing), varying reaction times (4 s up to 2 h), and temperatures (120À250°C) have been explored in these investigations. For all studied transformations, it was possible to perform a direct scale-up (up to 720 mL reaction volume) without changing the previously optimized reaction conditions achieved in a laboratory-scale single-mode microwave instrument (2À20 mL processing volume), obtaining similar isolated product yields. A scalability up to 360-fold, when moving from 3 mmol up to 1.08 mol, was demonstrated, and isolated product yields up to 300 g (2.5 mol scale) in a single run could be accomplished, providing the potential for a kilogram output per day for specific transformations by performing multiple sequential runs.

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Identification of Orally Available Naphthyridine Protein Kinase D Inhibitors

Meredith¹,

Ardayfio²,

Beattie³

et al. 2010

J. Med. Chem.

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A novel 2,6-naphthyridine was identified by high throughput screen (HTS) as a dual protein kinase C/D (PKC/PKD) inhibitor. PKD inhibition in the heart was proposed as a potential antihypertrophic mechanism with application as a heart failure therapy. As PKC was previously identified as the immediate upstream activator of PKD, PKD vs PKC selectivity was essential to understand the effect of PKD inhibition in models of cardiac hypertrophy and heart failure. The present study describes the modification of the HTS hit to a series of prototype pan-PKD inhibitors with routine 1000-fold PKD vs PKC selectivity. Example compounds inhibited PKD activity in vitro, in cells, and in vivo following oral administration. Their effects on heart morphology and function are discussed herein.

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A scalable and safe continuous flow procedure for in-line generation of diazomethane and its precursor MNU

Lehmann

2017

Green Chem.

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