Journal
JOURNAL OF MATERIALS CHEMISTRY C
Volume 10, Issue 5, Pages 1606-1616Publisher
ROYAL SOC CHEMISTRY
DOI: 10.1039/d1tc04635g
Keywords
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Funding
- Hasselt University
- Research Foundation - Flanders (FWO Vlaanderen)
- FWO [G0D0118N, G0B2718N, I006320N]
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Continuous flow chemistry offers new opportunities for the synthesis of conjugated polymers in organic electronics, addressing issues with traditional batch synthesis. Despite its potential, further research and application are needed to fully explore the capabilities of continuous flow chemistry.
Continuous flow chemistry offers a fast entry to commercial production for innovative polymers of diverse nature. A field that could hugely benefit from this gateway is organic electronics. For some of the most promising organic semiconductor technologies, push-pull type conjugated polymers afford the optimum performance metrics to date. However, the production of these polymers by classical batch synthesis procedures is accompanied by inherent issues with respect to the reproducibility of material properties such as molar mass and end-group fidelity, which strongly impact the final device performance. Flow chemistry could provide (part of) the solution here, but its full potential still has to be unravelled and embraced by the academic community as well as the interested industries. In this perspective, we present some specific cases to illustrate the state of affairs with respect to the flow synthesis of conjugated polymers, its benefits in the context of organic electronics, the challenges one is faced with when producing (push-pull) conjugated polymers by flow methods, and some future prospects.
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