Large pi-Conjugated Condensed Perylene-Based Aromatic Polyimide as Organic Cathode for Lithium-Ion Batteries

Raj, Michael Ruby; Mangalaraja, Ramalinga Viswanathan; Lee, Gibaek; Contreras, David; Zaghib, Karim; Reddy, M., V

Abstract

Organic redox-active compounds are promising alternatives to traditional inorganic analogs in organic batteries owing to their high energy density and tunable redox potentials. However, their poor cycling stability due to undesired dissolution in electrolytes and low electronic conductivity limit their applications. Herein, we report the large pi-conjugated condensed aromatic structures/extended pi-conjugation of perylene-based aromatic polyimide (namely, 5,12-bis(pyren-1-ylamino)perylenediimide- hydrazine, BA-PI) as cathode for use in lithium-ion batteries. This cathode is synthesized by one-step polymerization reaction between the aminopyrene-substituted at the 1,7-bay area of perylene-3,4:9,10-tetracarboxylic dianhydride (PTCDA) unit and hydrazine hydrate. The half-cell battery employing BA-PI exhibits an initial discharge capacity of similar to 51 mAh g(-1) in the potential range of 1.5-3.5 V vs Li+/Li, which is similar to 78% of its theoretical value (similar to 65.46 mAh g(-1)). Further, a different BA-PI-based cell delivers initial discharge capacity of similar to 85 mAh g(-1). When the deep-discharging to 0.01 V vs Li+/Li (at the very low voltage of <1.5 V), about 34 Li+ ions can be incorporated into a BA-PI electrode on copper foil as a current collector, exhibiting an extremely high specific capacity of similar to 1096 mAh g(-1). Moreover, the non-bay-substituted perylene-based aromatic polyimide, as control cathode, has delivered a discharge capacity of similar to 129 mAh g(-1) and shows good cyclic stability, indicating that such perylene-based aromatic polyimides are promising organic cathode materials for high-capacity lithium-polyimide batteries.

Más información

Título según WOS: Large pi-Conjugated Condensed Perylene-Based Aromatic Polyimide as Organic Cathode for Lithium-Ion Batteries
Título de la Revista: ACS APPLIED ENERGY MATERIALS
Volumen: 3
Número: 7
Editorial: AMER CHEMICAL SOC
Fecha de publicación: 2020
Página de inicio: 6511
Página final: 6524
DOI:

10.1021/ACSAEM.0C00729

Notas: ISI