Performances of nanotubes and nanocages as anodes in Na-ion battery, K-ion battery, and Mg-ion battery

Performances of nanotubes and nanocages as anodes in Na-ion battery, K-ion battery, and Mg-ion battery

Here, the abilities and potential of nanocages and nanotubes (C 60 , Al 30 N 30 , C 42 , B 21 P 21 , CNT(9, 0), AlNNT(9, 0), CNT(6, 0), BPNT(6, 0), S-C 60 , S-Al 30 N 30 , O-C 42 , O-B 21 P 21 , S-CNT(9, 0), S-AlNNT(9, 0), O-CNT(6, 0) and O-BPNT(6, 0)) as anodes in batteries are calculated by theore...

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Veröffentlicht in:Ionics 2024-05, Vol.30 (5), p.2657-2664
Hauptverfasser: Saadh, Mohamed J., Mustafa, Mohammed Ahmed, Batoo, Khalid Mujasam, Chandra, Subhash, Kaur, Mandeep, Hussain, Sajjad, Alsaadi, Salim B., Al-Tameemi, Ahmed Read, Kadhum, Eftikhaar Hasan, Falih, Khaldoon T., Alzubaidi, Laith H., Liu, Yuan, Su, Guang
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Sprache:eng
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Anodes
Buckminsterfullerene
Carbon nanotubes
Chemistry
Chemistry and Materials Science
Condensed Matter Physics
Electrochemistry
Energy Storage
Optical and Electronic Materials
Rechargeable batteries
Renewable and Green Energy
Sodium-ion batteries
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container_end_page 2664
container_issue 5
container_start_page 2657
container_title Ionics
container_volume 30
creator Saadh, Mohamed J.
Mustafa, Mohammed Ahmed
Batoo, Khalid Mujasam
Chandra, Subhash
Kaur, Mandeep
Hussain, Sajjad
Alsaadi, Salim B.
Al-Tameemi, Ahmed Read
Kadhum, Eftikhaar Hasan
Falih, Khaldoon T.
Alzubaidi, Laith H.
Liu, Yuan
Su, Guang
description Here, the abilities and potential of nanocages and nanotubes (C 60 , Al 30 N 30 , C 42 , B 21 P 21 , CNT(9, 0), AlNNT(9, 0), CNT(6, 0), BPNT(6, 0), S-C 60 , S-Al 30 N 30 , O-C 42 , O-B 21 P 21 , S-CNT(9, 0), S-AlNNT(9, 0), O-CNT(6, 0) and O-BPNT(6, 0)) as anodes in batteries are calculated by theoretical methods. The O- and S-doped nanocages and nanotubes have higher V cell and C theory than nanocages and nanotubes. The V cell and C theory of nanocages and nanotubes in Mg-ion batteries are higher than Na and K batteries. The V cell of O- and S-doped nanocages and nanotubes as anodes in K-, Na-, and Mg-ion batteries are lower than carbon nanotubes, BN nanotubes, and graphite derivatives in previous works. The O-BPNT(6, 0) and S-AlNNT(9, 0) in Mg-, Na-, and K-ion batteries have higher C theory than other nanocages and nanotubes. The O-BPNT(6, 0) and S-AlNNT(9, 0) are proposed as acceptable materials to use as anodes in in batteries with effective V cell and C theory values.
doi_str_mv 10.1007/s11581-024-05440-5
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subjects Anodes
Buckminsterfullerene
Carbon nanotubes
Chemistry
Chemistry and Materials Science
Condensed Matter Physics
Electrochemistry
Energy Storage
Optical and Electronic Materials
Rechargeable batteries
Renewable and Green Energy
Sodium-ion batteries
title Performances of nanotubes and nanocages as anodes in Na-ion battery, K-ion battery, and Mg-ion battery
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