Stoli has begun a new Horizon2020-funded SME instruments project that aims to halve the cost of fine chemicals manufacture and demonstrate the hydrogenation miniplant in continuous flow up to 100 kg per day of product.
We are seeking end-users across the chemicals sector to demonstrate our continuous flow hydrogenation technology and how we can make your process more efficient. Contact us today to find out how we can reduce costs, increase safety and decrease space requirements of your hydrogenation process.
Dr Sam Adams from Stoli Catalysts discusses why the batch technology dominates, introduce the flow chemistry, and discuss problems & opportunities in switching to flow.
SABRe shows a factor of 1.75 higher throughput in a reaction limited by heat transfer.
Check out our recent article on the flow chemistry.
We studied a Cu-based catalyst and correlated oxidation state of Cu with catalytic performance
We have recently published a case study on the pyridine chemisorption services we perform which determine the number of the corresponding acid sites in a material.
A simple overview of a chemical reactor – CSTR
We overview basic chemical reactor – the batch reactor
Raman Spectroscopy for online analysis: effect of gases, solids, laser power, aquisition time, signal/noise and more….
We investigated Raman spectroscopy for online analysis by monitoring hydrogenation reactions through relative peak intensities, subsequently, determine the concentration of components.
We have developed a monolith-based fuel cell catalyst for sustainable remote energy generation.
We remain open and operational throughout the COVID pandemic delivering to customers.
We have received a Royal Society of Chemistry internship grant and are accepting applications.
We completed in situ synchrotron studies of a customer’s catalyst at the Diamond Light Source Facility.