Carbon Letters 2024 KCI Impact Factor : 0.95 KCI-WoS Impact Factor : 4.74
-
pISSN : 1976-4251 / eISSN : 2233-4998
- https://journal.kci.go.kr/carbon
KJCKorea
Journal Central
Recycling of polyethylene via hydrothermal carbonization for the Li-ion battery anode
- Carbon Letters
- Abbr : Carbon Lett.
- 2024, 34(5), pp.1529~1536
- DOI : 10.1007/s42823-024-00721-5
- Publisher : Korean Carbon Society
- Research Area : Natural Science > Natural Science General > Other Natural Sciences General
- Received : February 9, 2024
- Accepted : March 9, 2024
- Published : June 14, 2024
Hong Soon Hyun 1, Ku Jahun 2, Park Sunhye 2, Park Jungjin 2, 유영상 3, Kim Chunjoong 2
1충남대학교
2충남대학교 신소재공학과
3충북대학교
Accredited
ABSTRACT
Because plastics are cheap and light, their use is indispensable in our daily lives. However, the extensive use of plastics causes the disposal issue. Among various disposal processes, plastic recycling is of great attention because of minimizing waste and harmful byproducts. Herein, we recycle the most popular thermoplastic materials, high-density and low-density polyethylene, producing the anode materials for the Li-ion batteries. The electrochemical properties of the as-recycled soft carbon are investigated to study the energy storage capability as the anode of Li-ion batteries. Our work demonstrates the soft carbon recycled from plastic wastes is a promising anode material.
Statistics
-
211 Viewed
-
0 Downloaded
Tools
Issue List
Citation status
This is the result of checking the information with the same ISSN, publication year, volume, and start page between the WoS and the KCI journals. (as of 2025-07-17)
Total Citation Counts(KCI+WOS) (2) This is the number of times that the duplicate count has been removed by comparing the citation list of WoS and KCI.
* References for papers published after 2024 are currently being built.
[journal]
Ludevese-Pascual G
/ 2019
/ Artificial substratum consisting of poly-β-hydroxybutyrate-based biodegradable plastic improved the survival and overall performance of postlarval tiger shrimp Penaeus monodon
/ Aquac Res
50
: 1269~1276
[journal]
Lear G
/ 2020
/ Microbial abilities to degrade global environmental plastic polymer waste are overstated
/ Environ Res Lett
17
: 043002~
[journal]
Villagomez-Salas S
/ 2018
/ Amorphous carbon chips li-ion battery anodes produced through polyethylene waste upcycling
/ ACS Omega
3
: 17520~17527
[journal]
Rajeshkumar L
/ 2023
/
Carbon nano-materials (CNMs) derived from biomass for energy storage applications: a review
/ Carbon Lett
33
: 661~690
[journal]
Min G
/ 2023
/
Recycling disposable masks as a conductive additive for silicon/graphite anodes in lithium-ion batteries
/ Carbon Letters
[journal]
Titirici M-M
/ 2021
/ Sustainable batteries-Quo vadis?
/ Adv Energy Mater
11
: 2003700~
[journal]
Song J
/ 2019
/ Material flow analysis on critical raw materials of lithium-ion batteries in China
/ J Clean Prod
215
: 570~581
[journal]
dos Santos CS
/ 2019
/ A closed-loop process to recover Li and Co compounds and to resynthesize LiCoO2 from spent mobile phone batteries
/ J Hazard Mater
362
: 458~466
[journal]
Meng Q
/ 2018
/ A combined process for cobalt recovering and cathode material regeneration from spent LiCoO2 batteries : process optimization and kinetics aspects
/ Waste Manag
71
: 372~380
[journal]
Sun L
/ 2011
/ Vacuum pyrolysis and hydrometallurgical process for the recovery of valuable metals from spent lithium-ion batteries
/ J Hazard Mater
194
: 378~384
[journal]
Sarkar A
/ 2021
/ Performance degradation due to anodic failure mechanisms in lithium-ion batteries
/ J Power Sources
502
: 229145~
[journal]
Natarajan S
/ 2019
/ Template-free synthesis of carbon hollow spheres and reduced graphene oxide from spent lithium-ion batteries towards efficient gas storage
/ J Mater Chem A
7
: 3244~3252
[journal]
Zou H
/ 2013
/ A novel method to recycle mixed cathode materials for lithium ion batteries
/ Green Chem
15
: 1183~1191
[journal]
Markey B
/ 2020
/ Effective Upcycling of graphite anode : healing and doping enabled direct regeneration
/ J Electrochem Soc
167
: 160511~
[journal]
Falco C
/ 2011
/ Hydrothermal carbon from biomass : structural differences between hydrothermal and pyrolyzed carbons via 13C solid state NMR
/ Langmuir
27
: 14460~14471
[journal]
Falco C
/ 2013
/ Hydrothermal carbons from hemicellulose-derived aqueous hydrolysis products as electrode materials for supercapacitors
/ Chemsuschem
6
: 374~382
[journal]
Sivaranjanee R
/ 2023
/
A recent advancement on hydrothermal carbonization of biomass to produce hydrochar for pollution control
/ Carbon Lett
33
: 1909~1933
[journal]
Wang M
/ 2021
/ Cost-effective hard–soft carbon composite anodes with promising potassium ions storage performance
/ Electrochim Acta
368
: 137649~
[journal]
Zhang D
/ 1996
/ Structure and properties development during the conversion of polyethylene precursors to carbon fibers
/ J Appl Polym Sci
62
: 367~373
[journal]
Penning J
/ 1991
/ The effect of diameter on the mechanical properties of amorphous carbon fibres from linear low density polyethylene
/ Polym Bull
25
: 405~412
[journal]
Polgar LM
/ 2016
/ Influence of the chemical structure of cross-linking agents on properties of thermally reversible networks
/ Pure Appl Chem
88
: 1103~1116
[journal]
Konwar LJ
/ 2019
/ SO3H-containing functional carbon materials : synthesis, structure, and acid catalysis
/ Chem Rev
119
: 11576~11630
[journal]
Asasian N
/ 2012
/ Comparison of dimethyl disulfide and carbon disulfide in sulfurization of activated carbons for producing mercury adsorbents
/ Ind Eng Chem Res
51
: 12046~12057
[journal]
Liu Y
/ 1996
/ Mechanism of lithium insertion in hard carbons prepared by pyrolysis of epoxy resins
/ Carbon
34
: 193~200
[journal]
Luo W
/ 2015
/ Electrochemically expandable soft carbon as anodes for Na-ion batteries
/ ACS Cent Sci
1
: 516~522
[journal]
Li Y
/ 2015
/ Freeze-drying assisted synthesis of hierarchical porous carbons for high-performance supercapacitors
/ J Mater Chem A
3
: 21016~21022
[journal]
Zhou F
/ 2014
/ A 3D hierarchical hybrid nanostructure of carbon nanotubes and activated carbon for high-performance supercapacitors
/ J Mater Chem A
2
: 3505~3512
[journal]
Zheng Q
/ 2012
/ Highly transparent and conducting ultralarge graphene oxide/single-walled carbon nanotube hybrid films produced by Langmuir-Blodgett assembly
/ J Mater Chem
22
: 25072~25082
[journal]
Ferrari AC
/ 2000
/ Interpretation of Raman spectra of disordered and amorphous carbon
/ Phys Rev B
61
: 14095~14107
[journal]
Robertson J
/ 2002
/ Diamond-like amorphous carbon
/ Mat Sci Eng R
37
: 129~281
[journal]
Xu N
/ 2013
/ Growth of carbon nanotubes on carbon/cobalt films with different sp2/sp3ratios
/ J Nanomater
2013
: 1~5
[journal]
Ge C
/ 2018
/ Novel hard carbon/graphite composites synthesized by a facile in situ anchoring method as high-performance anodes for lithium-ion batteries
/ RSC Adv
8
: 34682~34689
[journal]
Tuinstra F
/ 1970
/ Raman spectrum of graphite
/ J Chem Phys
53
: 1126~1130
[journal]
Cançado LG
/ 2006
/ General equation for the determination of the crystallite size La of nanographite by Raman spectroscopy
/ Appl Phys Lett
88
: 163106~
[journal]
Lee SW
/ 2010
/ High-power lithium batteries from functionalized carbon-nanotube electrodes
/ Nat Nanotechnol
5
: 531~537
[journal]
Gaddam RR
/ 2017
/ Capacitance-enhanced sodium-ion storage in nitrogen-rich hard carbon
/ J Mater Chem A
5
: 22186~22192
[journal]
Xiao L
/ 2018
/ Low-defect and low-porosity hard carbon with high coulombic efficiency and high capacity for practical sodium ion battery anode
/ Adv Energy Mater
8
: 1703238~
[journal]
Zhang Q
/ 2020
/ Hard carbon microspheres derived from resorcinol formaldehyde resin as high-performance anode materials for sodium-ion battery
/ Ionics
26
: 4523~4532
[journal]
Ou J
/ 2017
/ Nitrogen-doped porous carbon derived from horn as an advanced anode material for sodium ion batteries
/ Microporous Mesoporous Mater
237
: 23~30
[journal]
Zhu Z
/ 2018
/ Expanded biomass-derived hard carbon with ultra-stable performance in sodium-ion batteries
/ J Mater Chem A
6
: 1513~1522
[journal]
Yao X
/ 2019
/ Defect-rich soft carbon porous nanosheets for fast and high-capacity sodium-ion storage
/ Adv Energy Mater
9
: 1803260~
[journal]
Zhang Z
/ 2020
/ Operando electrochemical atomic force microscopy of solid-electrolyte interphase formation on graphite anodes : the evolution of sei morphology and mechanical properties
/ ACS Appl Mater Interfaces
12
: 35132~35141
[journal]
Li H-H
/ 2015
/ Dual-porosity SiO2/C nanocomposite with enhanced lithium storage performance
/ J Phys Chem C
119
: 3495~3501
[journal]
Ji K
/ 2019
/ Lithium intercalation into bilayer graphene
/ Nat Commun
10
: 275~
[journal]
Wang N
/ 2018
/ N-doped catalytic graphitized hard carbon for high-performance lithium/sodium-ion batteries
/ Sci Rep
8
: 9934~
[journal]
Levi MD
/ 1997
/ diffusion coefficients of lithium ions during intercalation into graphite derived from the simultaneous measurements and modeling of electrochemical impedance and potentiostatic intermittent titration characteristics of thin graphite electrodes
/ J Phys Chem B
101
: 4641~4647
[journal]
Lee YS
/ 2017
/ Study of the lithium diffusion properties and high rate performance of TiNb6O17 as an anode in lithium secondary battery
/ Sci Rep
7
: 16617~
[journal]
Crabtree G
/ 2015
/ The energy-storage frontier : Lithium-ion batteries and beyond
/ Mrs Bull
40
: 1067~1078