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Literature DB >> 24757125

Polymeric Schiff bases as low-voltage redox centers for sodium-ion batteries.

Elizabeth Castillo-Martínez¹, Javier Carretero-González, Michel Armand.

Abstract

The redox entity comprising two Schiff base groups attached to a phenyl ring (-N=CH-Ar-HC=N-) is reported to be active for sodium-ion storage (Ar=aromatic group). Electroactive polymeric Schiff bases were produced by reaction between non-conjugated aliphatic or conjugated aromatic diamine block with terephthalaldehyde unit. Crystalline polymeric Schiff bases are able to electrochemically store more than one sodium atom per azomethine group at potentials between 0 and 1.5 V versus Na(+)/Na. The redox potential can be tuned through conjugation of the polymeric chain and by electron injection from donor substituents in the aromatic rings. Reversible capacities of up to 350 mA h g(-1) are achieved when the carbon mixture is optimized with Ketjen Black. Interestingly, the "reverse" configuration (-CH=N-Ar-N=HC-) is not electrochemically active, though isoelectronic.

Entities: Chemical Species

Keywords: azomethine; energy storage; polymeric Schiff bases; sodium-ion battery

Year: 2014 PMID： 24757125 DOI： 10.1002/anie.201402402

Source DB: PubMed Journal: Angew Chem Int Ed Engl ISSN： 1433-7851 Impact factor: 15.336

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Cited

6 in total

1. Highly durable organic electrode for sodium-ion batteries via a stabilized α-C radical intermediate.

Authors: Shaofei Wu; Wenxi Wang; Minchan Li; Lujie Cao; Fucong Lyu; Mingyang Yang; Zhenyu Wang; Yang Shi; Bo Nan; Sicen Yu; Zhifang Sun; Yao Liu; Zhouguang Lu
Journal: Nat Commun Date: 2016-11-07 Impact factor: 14.919

2. First-Principles Study of Sodium Intercalation in Crystalline Na _x Si₂₄ (0 ≤ x ≤ 4) as Anode Material for Na-ion Batteries.

Authors: Unai Arrieta; Nebil A Katcho; Oier Arcelus; Javier Carrasco
Journal: Sci Rep Date: 2017-07-13 Impact factor: 4.379

Polymeric Schiff bases as low-voltage redox centers for sodium-ion batteries.

1. Highly durable organic electrode for sodium-ion batteries via a stabilized α-C radical intermediate.

2. First-Principles Study of Sodium Intercalation in Crystalline Na _x Si₂₄ (0 ≤ x ≤ 4) as Anode Material for Na-ion Batteries.

Review 3. Sustainable Materials for Sustainable Energy Storage: Organic Na Electrodes.

4. Hydrothermal Generation of Conjugated Polymers Using the Example of Pyrrone Polymers and Polybenzimidazoles.

Review 5. Sustainable Battery Materials from Biomass.

Review 6. Advances in Organic Anode Materials for Na-/K-Ion Rechargeable Batteries.

Polymeric Schiff bases as low-voltage redox centers for sodium-ion batteries.

1. Highly durable organic electrode for sodium-ion batteries via a stabilized α-C radical intermediate.

2. First-Principles Study of Sodium Intercalation in Crystalline Na x Si24 (0 ≤ x ≤ 4) as Anode Material for Na-ion Batteries.

Review 3. Sustainable Materials for Sustainable Energy Storage: Organic Na Electrodes.

4. Hydrothermal Generation of Conjugated Polymers Using the Example of Pyrrone Polymers and Polybenzimidazoles.

Review 5. Sustainable Battery Materials from Biomass.

Review 6. Advances in Organic Anode Materials for Na-/K-Ion Rechargeable Batteries.

2. First-Principles Study of Sodium Intercalation in Crystalline Na _x Si₂₄ (0 ≤ x ≤ 4) as Anode Material for Na-ion Batteries.