Unattended, fully automated sampling of chemical reactions, including slurries, enable chemists and engineers to gain samples throughout the reaction, providing valuable information. With the unique patented sampling probe, EasySampler quenches the sample at the point of sampling and at reaction conditions, proving a truly representative sample for accurate analytical data.
Inline particle size analyzers enable scientists and engineers to track the rate and degree of change to particles, crystals, or droplets as they naturally exist in process. By understanding how particles change in real time, engineers can track batch-to-batch consistency, detect endpoints and optimize downstream throughput and product quality.
Integrated software for chemical reactors and PAT instruments enable researchers to combine all technology in a simple and powerful platform, which captures data, visualizes and interprets experiments, prepares and report results, and compares batches or experiments.
Chemical synthesis occurs when two or more molecules are combined to form a product molecule that possesses specific properties. There are numerous examples of chemical synthesis t...
Optimization and scale-up of crystallisation and precipitation to produce a product that consistently meets purity, yield, form and particle size specifications can be one of the b...
Chemical process development and scale-up guide the development of a commercially important molecule from synthesis in the laboratory to manufacturing in a plant.
Chemical process safety focuses on preventing incidents and accidents during manufacturing of chemicals and pharmaceuticals on a large scale. It refers to unintentional release of...
Process Analytical Technology (PAT) is a methodology for real-time monitoring and control of chemical processes for improved efficiency and product quality.
Solid and liquid formulations are influenced by particle and droplet size. Particles and droplets affect the bioavailability, stability, and manufacturability of formulations incl...
Parallel Synthesis accelerates the discovery of potential drug candidates and screen for optimal process conditions as the molecule proceeds through development phases. Instead of...
Continuous flow chemistry opens options with exothermic synthetic steps that are not possible in batch reactors, and new developments in flow reactor design provide alternatives fo...
Discover how FTIR spectroscopy utilizes infrared energy to provide a unique fingerprint for identification and analysis. Enhance your research with our comprehensive FTIR spectrosc...
Publications
Publications on Crystallization, Organic Synthesis, Process Development, Safety and PAT