《Scalable Route to Electroactive and Light Active Perylene Diimide Dye Polymer Binder for Lithium-Ion Batteries》 was written by Ranque, Pierre; George, Chandramohan; Dubey, Rajeev K.; van der Jagt, Remco; Flahaut, Delphine; Dedryvere, Remi; Fehse, Marcus; Kassanos, Panagiotis; Jager, Wolter F.; Sudhoelter, Ernst J. R.; Kelder, Erik M.. Reference of 6-Aminohexan-1-ol And the article was included in ACS Applied Energy Materials in 2020. The article conveys some information:
Developing multifunctional polymeric binders is key to the design of energy storage technologies with value-added features. We report that a multigram-scale synthesis of perylene diimide polymer (PPDI), from a single batch via polymer analogous reaction route, yields high mol. weight polymers with suitable thermal stability and minimized solubility in electrolytes, potentially leading to improved binding affinity toward electrode particles. Further, it develops strategies for designing copolymers with virtually any desired composition via a subsequent grafting, leading to purpose-built binders. PPDI dye as both binder and electroactive additive in lithium half-cells using lithium iron phosphate exhibits good electrochem. performance. In the experiment, the researchers used 6-Aminohexan-1-ol(cas: 4048-33-3Reference of 6-Aminohexan-1-ol)
6-Aminohexan-1-ol(cas: 4048-33-3) can undergo cyclization over copper supported on γ-alumina and magnesia to form hexahydro-1H-azepine. It may be used along with glutaric acid to generate poly(ester amide)s with excellent film- and fiber forming properties.Reference of 6-Aminohexan-1-ol
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