Accelerate and optimize chemical synthesis
Today, pharmaceutical and fine chemical companies face major challenges posed by globalization, environmental regulation, and shortened product life cycle that affect all aspects of their business. The research and development of an optimized chemical synthesis route must be carried out in less time and with less chemical waste to ensure a robust and economic process that can be efficiently scaled to manufacturing while meeting constraints related to product yield and purity, process and worker safety, and environmental concerns.
METTLER TOLEDO provides a range of enabling solutions to aid organic synthesis research and development. Parallel Synthesis tools (MiniBlock, FlexiWeigh) and Automated Lab Reactors (EasyMax, MultiMax, LabMax, RC1) ensure consistent, well-controlled experimental conditions for optimized Design of Experiments (DOE) studies. In situ Process Analytical Technologies (PAT) such as ReactIR™ (real-time in situ FTIR) and RTCal (real-time calorimetry) provide the ability to continuously monitor a chemical reaction for a deeper understanding of reaction kinetics, reaction mechanisms and pathways, and heat flow information that provide a faster and more efficient path to an optimized synthesis.
METTLER TOLEDO provides a range of enabling solutions to aid organic synthesis research and development. Parallel Synthesis tools (MiniBlock, FlexiWeigh) and Automated Lab Reactors (EasyMax, MultiMax, LabMax, RC1) ensure consistent, well-controlled experimental conditions for optimized Design of Experiments (DOE) studies. In situ Process Analytical Technologies (PAT) such as ReactIR™ (real-time in situ FTIR) and RTCal (real-time calorimetry) provide the ability to continuously monitor a chemical reaction for a deeper understanding of reaction kinetics, reaction mechanisms and pathways, and heat flow information that provide a faster and more efficient path to an optimized synthesis.
New Reaction Analysis Data Sheets AutoChem Customer Community Site Version 2 Launched New Reaction Block for Organic Synthesis and Process Screening The first automated chemistry development tool that requires no training Reduce the risks of highly reactive chemistry New in situ FTIR Reaction Monitoring System
10/22/08 Reducing the Risk of Highly Reactive Chemistry in Chemical R&D 9/11/08 Optimization of a Ugi Reaction Using MiniBlock® 9/10/08 EasyMax™: The New Personal Workstation for Reaction Screening and Optimization 10/29/08 Going Green: The Role of Process Analytical Technology (PAT) in Green Chemistry 9/16/08 Increase Chemical Development Productivity with Exciting New Products for In Situ FTIR Reaction Monitoring