Réacteurs de synthèse chimique en laboratoire | Équipements de chimie organique

L'automatisation pour tous les chimistes

Témoignages au sujet des réacteurs de synthèse chimique

Journey to the New Normal

Journey to the New Normal

Overcoming Unexpected Productivity Upsets in Chemical Development

The Modern Synthesis Lab

The Modern Synthesis Lab

A New Workplace for Chemists

Dosing in Chemical Development

Safe, Unattended Dosing in Chemical Development & Scale-up

Automate Dosing and Run Highly Exothermic Reactions Unattended

Viral Inactivation in Bioprocess Development

Viral Inactivation in Bioprocess Development

Automated Solutions for Optimization and Control of Low pH Viral Inactivation

Culture of Safety

Sustain a Culture of Safety

Build Personal, Process, and Environmental Safety into Every Experiment

Guide to Chemical Process Safety

Guide to Chemical Process Safety

Understand the Risks - Safe Chemical Processes at Scale

Les réacteurs de synthèse chimique automatisés dans les publications récentes

Voici une sélection de publications concernant les réacteurs de synthèse chimique.

  • Peplow, M. – "Automation for the people: Training a new generation of chemists in data-driven synthesis", C&EN, October 27, 2019, Vol. 97, Issue 42​
  • Yang., et al. "Evaluation of Potential Safety Hazards Associated with the Suzuki−Miyaura Cross-Coupling of Aryl Bromides with Vinylboron Species." Org. Process Res. Dev. 2018, 22, 351−359​
  • Buetti-Weekly, Michele T., et al. "Development of a safe and scalable process for the preparation of allyl glyoxalate." Organic Process Research & Development 22.1, 2018: 82-90.​
  • Thomas, et al. "Scalable and Selective Preparation of 3, 3′, 5, 5′-Tetramethyl-2, 2′-biphenol." Organic Process Research & Development 21.1, 2017: 79-84.​
  • Charles D. Papageorgiou et al. "Development and Scale-up of an Efficient Miyaura Borylation Process Using Tetrahydroxydiboron" Organic Process Research & Development 22.1, 2017, 65-74​
  • Kinetics of a C-H Activation Reaction, Sampling Air-Sensitive Reactions, METTLER TOLEDO Application Note based on studies by Brian Vanderplas and David Place, Pfizer​
  • Hwang R., Noack R. M. − International Journal of Experimental Design and Process Optimisation, 2011, Vol.2, No.1, pp. 58 − 65​
  • Guidance for Industry, Q8 (R2) Pharmaceutical Development, U.S. Department of Health and Human Services, Food and Drug Administration, November 2009, Revision 2​
  • Mills J. E. – Chemical Process Research, ACS Symposium Series, 2003, Chapter 6, pp 87 – 109 ​
  • Owen et al. − Organic Process Research & Development, 2001, 5, pp. 308 − 323​