Structural regulation of vanadium oxide by poly(3,4-ethylenedioxithiophene) intercalation for ammonium-ion supercapacitors

Recently, ammonium-ion (NH4+) storage is in a booming stage in aqueous energy storage systems due to its multitudinous merits. To seek suitable electrode materials with excellent NH4+-storage is still in the exploratory stage and full of challenge. Herein, an inorganic-polymer hybrid, poly(3,4-ethyl...

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Published in:Advanced Sensor and Energy Materials 2022-06, Vol.1 (2), p.100013, Article 100013
Main Authors: Chen, Xingyu, Wang, Peng, Feng, Ziying, Liu, Yanyan, Cui, Miao, Meng, Changgong, Zhang, Yifu
Format: Article
Language:English
Subjects:
Inorganic-polymer hybrid
NH4+ storage
Polymer intercalation
Supercapacitor
Vanadium oxide hydration
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Summary:Recently, ammonium-ion (NH4+) storage is in a booming stage in aqueous energy storage systems due to its multitudinous merits. To seek suitable electrode materials with excellent NH4+-storage is still in the exploratory stage and full of challenge. Herein, an inorganic-polymer hybrid, poly(3,4-ethylenedioxithiophene) (PEDOT) intercalated hydrated vanadium oxide (VOH), named as VOH/PEDOT, is developed to tune the structure of VOH for boosting NH4+ storage. By the intercalation of PEDOT, the interlayer space of VOH is increased from 11.5 Å to 14.2 Å, which notably facilitates the rapid transport of electrons and charges between layers and improves the electrochemical properties for NH4+ storage. The achieved performances are much better than progressive NH4+ hosting materials. In addition, the concentration of polyvinyl alcohol/ammonium chloride (PVA/NH4Cl) electrolyte exerts a great impact on the NH4+ storage in VOH/PEDOT. The VOH/PEDOT electrode delivers specific capacitance of 327 F g−1 in 1 M PVA/NH4Cl electrolyte at −0.2–1 V. Furthermore, the quasi-solid-state VOH/PEDOT//active carbon hybrid supercapacitor (QSS VOH/PEDOT//AC HSC) device is assembled for NH4+ storage, and it exhibits the capacitance of 328 mF cm−2 at 1 mA cm−2. The energy density of QSS VOH/PEDOT//AC NH4+-HSC can reach 2.9 Wh m−2 (2.6 mWh cm−3, 10.4 Wh kg−1) at 1 W m−2 (0.9 mWh cm−3, 35.7 W kg−1). This work not only proves that the PEDOT intercalation can boost the NH4+ storage capacity of vanadium oxides, but also provides a novel direction for the development of NH4+ storage materials. In this work, an inorganic-polymer hybrid VOH/PEDOT is developed to tune the structure of VOH for boosting NH4+-storage and it exhibits splendid electrochemical performances in NH4+-HSC. [Display omitted] •VOH/PEDOT is developed to tune the structure of VOH for boosting NH4+-storage.•The intercalation of PEDOT effectively increases the interlayer distance of VOH from 11.5 Å to 14.2 Å.•The VOH/PEDOT electrode delivers a specific capacitance of 327 F g−1 at 0.5 A.g−1 at −0.2∼1 V.•VOH/PEDOT as cathode for QSS NH4+-HSC device is achieved with high capacitance.
ISSN:2773-045X
2773-045X
DOI:10.1016/j.asems.2022.100013