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Literature DB >> 26235336

Thianthrene-functionalized polynorbornenes as high-voltage materials for organic cathode-based dual-ion batteries.

Martin E Speer¹, Martin Kolek, Jean Jacques Jassoy, Jennifer Heine, Martin Winter, Peter M Bieker, Birgit Esser.

Abstract

Thianthrene-functionalized polynorbornenes were investigated as high-voltage organic cathode materials for dual-ion cells. The polymers show reversible oxidation reactions in solution and as a solid in composite electrodes. Constant current investigations displayed a capacity of up to 66 mA h g(-1) at a high potential of 4.1 V vs. Li/Li(+).

Entities: Chemical

Year: 2015 PMID： 26235336 DOI： 10.1039/c5cc04932f

Source DB: PubMed Journal: Chem Commun (Camb) ISSN： 1359-7345 Impact factor: 6.222

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Cited

4 in total

1. Advanced Dual-Ion Batteries with High-Capacity Negative Electrodes Incorporating Black Phosphorus.

Authors: Jens Matthies Wrogemann; Lukas Haneke; Thrinathreddy Ramireddy; Joop Enno Frerichs; Irin Sultana; Ying Ian Chen; Frank Brink; Michael Ryan Hansen; Martin Winter; Alexey M Glushenkov; Tobias Placke
Journal: Adv Sci (Weinh) Date: 2022-04-27 Impact factor: 17.521

Thianthrene-functionalized polynorbornenes as high-voltage materials for organic cathode-based dual-ion batteries.

1. Advanced Dual-Ion Batteries with High-Capacity Negative Electrodes Incorporating Black Phosphorus.

2. Phenothiazine-Functionalized Poly(norbornene)s as High-Rate Cathode Materials for Organic Batteries.

3. Spiroconjugated Tetraaminospirenes as Donors in Color-Tunable Charge-Transfer Emitters with Donor-Acceptor Structure.

4. Carbon Derived from Pine Needles as a Na⁺-Storage Electrode Material in Dual-Ion Batteries.

Thianthrene-functionalized polynorbornenes as high-voltage materials for organic cathode-based dual-ion batteries.

1. Advanced Dual-Ion Batteries with High-Capacity Negative Electrodes Incorporating Black Phosphorus.

2. Phenothiazine-Functionalized Poly(norbornene)s as High-Rate Cathode Materials for Organic Batteries.

3. Spiroconjugated Tetraaminospirenes as Donors in Color-Tunable Charge-Transfer Emitters with Donor-Acceptor Structure.

4. Carbon Derived from Pine Needles as a Na+-Storage Electrode Material in Dual-Ion Batteries.

4. Carbon Derived from Pine Needles as a Na⁺-Storage Electrode Material in Dual-Ion Batteries.