Suppression of polysulfides by carbonized polyacrylonitrile modified polypropylene janus separator for Li2S/r-GONR/CNT-based Li-S batteries

Suppression of polysulfides by carbonized polyacrylonitrile modified polypropylene janus separator for Li2S/r-GONR/CNT-based Li-S batteries

Practical applications of Li2S-based Li–S batteries face two challenges that occur in both electrodes: the shuttle effect of polysulfide (PS) intermediates and the uncontrollable growth of Li dendrites. In this study, Li2S was anchored onto the surface of a two-dimensional reduced graphene oxide nan...

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Main Authors: Deivendran, Gokul Raj, Wu, She–Huang, Wu, Yi–Shiuan, Chang, Jeng-Kuei, Jose, Rajan, Ng, Kim Hoong, Poddar, Mrinal, Sun, Chia-Liang, Yang, Chun-Chen
Format: Article
Language:English
Published: American Chemical Society 2024
Subjects:
QD Chemistry
TK Electrical engineering. Electronics Nuclear engineering
TP Chemical technology
Online Access:http://umpir.ump.edu.my/id/eprint/44673/
http://umpir.ump.edu.my/id/eprint/44673/1/Suppression%20of%20polysulfides%20by%20carbonized%20polyacrylonitrile.pdf
_version_ 1848827153769037824
author Deivendran, Gokul Raj
Wu, She–Huang
Wu, Yi–Shiuan
Chang, Jeng-Kuei
Jose, Rajan
Ng, Kim Hoong
Poddar, Mrinal
Sun, Chia-Liang
Yang, Chun-Chen
author_facet Deivendran, Gokul Raj
Wu, She–Huang
Wu, Yi–Shiuan
Chang, Jeng-Kuei
Jose, Rajan
Ng, Kim Hoong
Poddar, Mrinal
Sun, Chia-Liang
Yang, Chun-Chen
author_sort Deivendran, Gokul Raj
building UMP Institutional Repository
collection Online Access
description Practical applications of Li2S-based Li–S batteries face two challenges that occur in both electrodes: the shuttle effect of polysulfide (PS) intermediates and the uncontrollable growth of Li dendrites. In this study, Li2S was anchored onto the surface of a two-dimensional reduced graphene oxide nanoribbon (r-GONR), which was then entangled and connected by a one-dimensional carbon nanotube (CNT)-designed carbon matrix that facilitated rapid electron transfer and physically confined Li2S. Furthermore, polyacrylonitrile (PAN)/Super P blends were used to prepare porous electrically conductive carbon composites as coating layers on a polypropylene (PP) with a bilayer structure to block PS transport and enhance conversion reaction kinetics in Li–S batteries. The resultant carbonized-polyacrylonitrile (cPAN)/Super P-coated PP Janus separators exhibited multifunctional advantages: the porous conductive cPAN/Super P coating interlayer functioned as an upper current collector that increased the electrical conductivity, and abundant pyridinic N groups present in the cyclized cPAN matrix sequestered the PSs through strong interatomic attraction. Compared with the cell containing the uncoated PP separator, this modified PP separator design could synergistically immobilize PSs by chemisorption toward the cathode and reduce the initial activation barrier and overpotential. Furthermore, the PP Janus separator was highly efficient in preventing Li dendrite formation; additionally, the Li//Li symmetric cell containing the Janus separator extended the lifespan up to 1200 h. The electrochemical performance of the Li2S/r-GONR/CNT-based cell containing the cPAN/Super P-coated PP Janus separator improved, with an initial discharge capacity of 1059 mA h g–1 at 0.1C and 810 mA h g–1 at 1C. Additionally, the cell maintained a specific capacity of 439 mA h g–1 and exhibited improved capacity retention (68%) after 500 cycles at 3C. This showed that the cell based on the cPAN/Super P-modified PP Janus separator could effectively suppress the PS shuttle effect and prevent Li dendritic growth, thus improving the overall electrochemical performance of Li–S batteries.
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institution Universiti Malaysia Pahang
institution_category Local University
language English
last_indexed 2025-11-15T03:56:11Z
publishDate 2024
publisher American Chemical Society
recordtype eprints
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spelling ump-446732025-05-30T08:02:30Z http://umpir.ump.edu.my/id/eprint/44673/ Suppression of polysulfides by carbonized polyacrylonitrile modified polypropylene janus separator for Li2S/r-GONR/CNT-based Li-S batteries Deivendran, Gokul Raj Wu, She–Huang Wu, Yi–Shiuan Chang, Jeng-Kuei Jose, Rajan Ng, Kim Hoong Poddar, Mrinal Sun, Chia-Liang Yang, Chun-Chen QD Chemistry TK Electrical engineering. Electronics Nuclear engineering TP Chemical technology Practical applications of Li2S-based Li–S batteries face two challenges that occur in both electrodes: the shuttle effect of polysulfide (PS) intermediates and the uncontrollable growth of Li dendrites. In this study, Li2S was anchored onto the surface of a two-dimensional reduced graphene oxide nanoribbon (r-GONR), which was then entangled and connected by a one-dimensional carbon nanotube (CNT)-designed carbon matrix that facilitated rapid electron transfer and physically confined Li2S. Furthermore, polyacrylonitrile (PAN)/Super P blends were used to prepare porous electrically conductive carbon composites as coating layers on a polypropylene (PP) with a bilayer structure to block PS transport and enhance conversion reaction kinetics in Li–S batteries. The resultant carbonized-polyacrylonitrile (cPAN)/Super P-coated PP Janus separators exhibited multifunctional advantages: the porous conductive cPAN/Super P coating interlayer functioned as an upper current collector that increased the electrical conductivity, and abundant pyridinic N groups present in the cyclized cPAN matrix sequestered the PSs through strong interatomic attraction. Compared with the cell containing the uncoated PP separator, this modified PP separator design could synergistically immobilize PSs by chemisorption toward the cathode and reduce the initial activation barrier and overpotential. Furthermore, the PP Janus separator was highly efficient in preventing Li dendrite formation; additionally, the Li//Li symmetric cell containing the Janus separator extended the lifespan up to 1200 h. The electrochemical performance of the Li2S/r-GONR/CNT-based cell containing the cPAN/Super P-coated PP Janus separator improved, with an initial discharge capacity of 1059 mA h g–1 at 0.1C and 810 mA h g–1 at 1C. Additionally, the cell maintained a specific capacity of 439 mA h g–1 and exhibited improved capacity retention (68%) after 500 cycles at 3C. This showed that the cell based on the cPAN/Super P-modified PP Janus separator could effectively suppress the PS shuttle effect and prevent Li dendritic growth, thus improving the overall electrochemical performance of Li–S batteries. American Chemical Society 2024 Article PeerReviewed pdf en http://umpir.ump.edu.my/id/eprint/44673/1/Suppression%20of%20polysulfides%20by%20carbonized%20polyacrylonitrile.pdf Deivendran, Gokul Raj and Wu, She–Huang and Wu, Yi–Shiuan and Chang, Jeng-Kuei and Jose, Rajan and Ng, Kim Hoong and Poddar, Mrinal and Sun, Chia-Liang and Yang, Chun-Chen (2024) Suppression of polysulfides by carbonized polyacrylonitrile modified polypropylene janus separator for Li2S/r-GONR/CNT-based Li-S batteries. ACS Applied Energy Materials, 7 (8). 3321 -3338. ISSN 2574-0962. (Published) https://pubs.acs.org/doi/10.1021/acsaem.4c00093 https://pubs.acs.org/doi/10.1021/acsaem.4c00093
spellingShingle QD Chemistry
TK Electrical engineering. Electronics Nuclear engineering
TP Chemical technology
Deivendran, Gokul Raj
Wu, She–Huang
Wu, Yi–Shiuan
Chang, Jeng-Kuei
Jose, Rajan
Ng, Kim Hoong
Poddar, Mrinal
Sun, Chia-Liang
Yang, Chun-Chen
Suppression of polysulfides by carbonized polyacrylonitrile modified polypropylene janus separator for Li2S/r-GONR/CNT-based Li-S batteries
title Suppression of polysulfides by carbonized polyacrylonitrile modified polypropylene janus separator for Li2S/r-GONR/CNT-based Li-S batteries
title_full Suppression of polysulfides by carbonized polyacrylonitrile modified polypropylene janus separator for Li2S/r-GONR/CNT-based Li-S batteries
title_fullStr Suppression of polysulfides by carbonized polyacrylonitrile modified polypropylene janus separator for Li2S/r-GONR/CNT-based Li-S batteries
title_full_unstemmed Suppression of polysulfides by carbonized polyacrylonitrile modified polypropylene janus separator for Li2S/r-GONR/CNT-based Li-S batteries
title_short Suppression of polysulfides by carbonized polyacrylonitrile modified polypropylene janus separator for Li2S/r-GONR/CNT-based Li-S batteries
title_sort suppression of polysulfides by carbonized polyacrylonitrile modified polypropylene janus separator for li2s/r-gonr/cnt-based li-s batteries
topic QD Chemistry
TK Electrical engineering. Electronics Nuclear engineering
TP Chemical technology
url http://umpir.ump.edu.my/id/eprint/44673/
http://umpir.ump.edu.my/id/eprint/44673/
http://umpir.ump.edu.my/id/eprint/44673/
http://umpir.ump.edu.my/id/eprint/44673/1/Suppression%20of%20polysulfides%20by%20carbonized%20polyacrylonitrile.pdf

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