Asynt has supplied the Wilson Structural Chemistry Research Group at the University of Bath with a custom DrySyn heating block system.
The adapted DrySyn system, designed by Asynt in conjunction with the University of Bath, is being used to help simplify and accelerate development of crystallisation methodology to selectively control polymorph formation.
It is also hoped to generate multi-component crystals with favourable target physical properties such as optical effects, solubility and porosity.
Control of the solid form of crystalline materials is desirable in many industrial sectors including the pharmaceutical and agrichemical industries where the production of different polymorphs, co-crystals or salts are known to affect significantly the physical properties of target active ingredients.
here are many factors known to affect crystal formation including choice of solvent or solvents, temperature of crystallisation and the presence of additives or additional component in the crystallisation process.
Dr Lynne Thomas - a research fellow at the University of Bath commented said: “Temperature fluctuations in particular are known both to induce crystallisation and potentially can act as a switch controlling which stable crystalline form is obtained.
“Careful temperature control of samples crystallising is therefore of critical importance in this field, as is a heavily parallel approach to allow systematic investigation of the effect of crystallisation conditions on solid form.
“The number of potential temperature and solvent combinations thus makes screening conditions through a parallel approach to temperature controlled crystallisation much more efficient, and in many cases essential.”
Dr Thomas added “In collaboration with Asynt, we have designed and installed custom heating blocks in our Crystallisation laboratory to optimise the temperature controlled space on each DrySyn heating block.
“The novel adapted DrySyn heating block, which enables precise control of 19 crystallisations in parallel, has proven its ability to increase the flexibility and speed of low to medium throughput crystallisation experiments.”