How to ramp up your multimodal polyolefins research
Increase your throughput, enhance your data quality and improve scalability
using a ground-breaking laboratory platform
Join Anton Nagy and Karl Kawretzke of ILS
Learn how multistage polyolefin experimental throughput can be increased by 600% compared with traditional methods using this novel system to conduct ground-breaking research for a global polymer research centre. This interactive webinar will allow you to see real data and ask the presenters questions.
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Advanced polymer synthesis
Multimodal slurry and gas-phase processes are accurately mimicked by fast transitioning with fully-independent control of all parameters including gas-headspace composition.
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Manual handling reduced
Seamless integration of a slurries-handling robot in a fully-inert glove-box prevents catalyst poisoning and reduces manual effort and error.
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Parallel synthesis
Modular reactor design allows easy numbering up of parallel experiments from 1 to many reactors with volumes up to 3L to accelerate your experimental throughput.
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Bridges the gap to scale-up
Synthesise up to 100g of the desired product to make full materials characterisation possible.
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Data quality improved
Reactor volumes of 500ml or greater provide higher-quality data and support kinetic modeling and reaction calorimetry.
Anton Nagy
CEO and Founder of ILS with decades of process engineering and research experience
Karl Kawretzke
ILS Project Leader who managed the successful build and commissioning of the advanced polymer unit
Alasdair Graham
COO of ILS and experienced researcher in product and process development areas