News Picture Generic

High‐Throughput Synthesis of Polymers

January 31, 2019

University of Jena

Wiley Online Library

High‐throughput synthesis offers reliable experimental techniques for the rapid investigation of polymerization parameters as well as for the preparation of comprehensive polymer libraries with systematic variations for screening against different applications. This contribution summarizes the use of different high‐throughput methods available for the synthesis, characterization, and screening of polymeric materials. A critical viewpoint regarding the advantages, impact, current limitations, and future developments of these experimental techniques is also provided.

For more information about Chemspeed solutions:

ISYNTH

ISYNTH POSYCAT POSY

MULTIPLANT / AUTOPLANT POLY

MULTIPLANT / AUTOPLANT POSY

University of Jena
https://doi.org/10.1002/0471440264.pst668

For details please contact [email protected]

Other Recent News

Discover more news articles you might be interested in

Read more about Parameter efficient multi-model vision assistant for polymer solvation behaviour inference
News Picture 1 1 V2
Jun
30

Parameter efficient multi-model vision assistant for polymer solvation behaviour inference

Polymer–solvent systems exhibit complex solvation behaviours encompassing a diverse range of phenomena, including swelling, gelation, and dispersion. Accurate interpretation is often hindered by subjectivity, particularly in manual rapid screening assessments. While computer vision models hold significant promise to replace the reliance on human evaluation for inference, their adoption is limited by the lack of domain-specific datasets tailored, in our case, to polymer–solvent systems.

Read more about Continuous Flow Synthesis of Diglycolamides for Rare-Earth Elements Recovery: Algorithm-Accelerated Reaction Optimization Coupled with Automated Extraction Evaluation
News Picture 1 1 V2
Featured
Jun
23

Continuous Flow Synthesis of Diglycolamides for Rare-Earth Elements Recovery: Algorithm-Accelerated Reaction Optimization Coupled with Automated Extraction Evaluation

A first example of diglycolamide flow synthesis was developed, showcasing algorithm-accelerated reaction optimization and its potential to accelerate ligand discovery and enable autonomous, AIcontrolled manufacturing of critical materials. The increasing demand for manufacturing rare-earth elements (REEs) as critical materials has intensified research on sustainable synthesis of advanced extractants such as diglycolamides (DGAs).

Read more about Identifying critical powder properties for high-throughput dispensing of alumina and organic templates
News Picture 1 1 V2
Jun
16

Identifying critical powder properties for high-throughput dispensing of alumina and organic templates

Screening powder properties such as flowability, compressibility, and particle geometry is crucial for controlling ceramic processing, particularly in automated workflows that demand high reproducibility. Sacrificial templating for porous ceramics is well suited to automation because it is prone to variability arising from manual handling.

© Chemspeed Technologies 2026