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@article{ART003265137},
author={Jang Seokhoon and Kim Jieun and NA EUN BEEN and Song Mingyu and Choi Jinkyu and Song KyongHwa and BAECK SUNG HYEON and SHIM SANG EUN},
title={Facile synthesis of mesoporous and highly nitrogen/sulfur dual-doped graphene and its ultrahigh discharge capacity in non-aqueous lithium oxygen batteries},
journal={Carbon Letters},
issn={1976-4251},
year={2019},
volume={29},
number={3},
pages={297-305},
doi={10.1007/s42823-019-00026-y}

TY - JOUR
AU - Jang Seokhoon
AU - Kim Jieun
AU - NA EUN BEEN
AU - Song Mingyu
AU - Choi Jinkyu
AU - Song KyongHwa
AU - BAECK SUNG HYEON
AU - SHIM SANG EUN
TI - Facile synthesis of mesoporous and highly nitrogen/sulfur dual-doped graphene and its ultrahigh discharge capacity in non-aqueous lithium oxygen batteries
JO - Carbon Letters
PY - 2019
VL - 29
IS - 3
PB - Korean Carbon Society
SP - 297
EP - 305
SN - 1976-4251
AB - High-level heteroatom, N and S, dual-doped graphene with an improved mesoporous structure was fabricated via facile in situ carbonization and used as metal-free cathode for non-aqueous lithium oxygen batteries. The prepared cathode delivered an ultrahigh specific capacity of 22,252 mAh/g at a current density of 200 mA/g as well as better cycling reversibility because of the larger and copious mesopores, which can promote the penetration of oxygen, electrons, and lithium ions and the ability to accommodate more discharge products, e.g., Li2O2, in Li–O2 batteries. The material had a high level of heteroatom co-doping in the carbon lattice, which enhanced the electrical conductivity and served as active sites for the oxygen reduction reaction.
KW - Lithium oxygen battery;Graphene;Carbonization;Doping;Mesoporosity
DO - 10.1007/s42823-019-00026-y
ER -

Jang Seokhoon, Kim Jieun, NA EUN BEEN, Song Mingyu, Choi Jinkyu, Song KyongHwa, BAECK SUNG HYEON and SHIM SANG EUN. (2019). Facile synthesis of mesoporous and highly nitrogen/sulfur dual-doped graphene and its ultrahigh discharge capacity in non-aqueous lithium oxygen batteries. Carbon Letters, 29(3), 297-305.

Jang Seokhoon, Kim Jieun, NA EUN BEEN, Song Mingyu, Choi Jinkyu, Song KyongHwa, BAECK SUNG HYEON and SHIM SANG EUN. 2019, "Facile synthesis of mesoporous and highly nitrogen/sulfur dual-doped graphene and its ultrahigh discharge capacity in non-aqueous lithium oxygen batteries", Carbon Letters, vol.29, no.3 pp.297-305. Available from: doi:10.1007/s42823-019-00026-y

Jang Seokhoon, Kim Jieun, NA EUN BEEN, Song Mingyu, Choi Jinkyu, Song KyongHwa, BAECK SUNG HYEON, SHIM SANG EUN "Facile synthesis of mesoporous and highly nitrogen/sulfur dual-doped graphene and its ultrahigh discharge capacity in non-aqueous lithium oxygen batteries" Carbon Letters 29.3 pp.297-305 (2019) : 297.

Jang Seokhoon, Kim Jieun, NA EUN BEEN, Song Mingyu, Choi Jinkyu, Song KyongHwa, BAECK SUNG HYEON, SHIM SANG EUN. Facile synthesis of mesoporous and highly nitrogen/sulfur dual-doped graphene and its ultrahigh discharge capacity in non-aqueous lithium oxygen batteries. 2019; 29(3), 297-305. Available from: doi:10.1007/s42823-019-00026-y

Jang Seokhoon, Kim Jieun, NA EUN BEEN, Song Mingyu, Choi Jinkyu, Song KyongHwa, BAECK SUNG HYEON and SHIM SANG EUN. "Facile synthesis of mesoporous and highly nitrogen/sulfur dual-doped graphene and its ultrahigh discharge capacity in non-aqueous lithium oxygen batteries" Carbon Letters 29, no.3 (2019) : 297-305.doi: 10.1007/s42823-019-00026-y

Jang Seokhoon; Kim Jieun; NA EUN BEEN; Song Mingyu; Choi Jinkyu; Song KyongHwa; BAECK SUNG HYEON; SHIM SANG EUN. Facile synthesis of mesoporous and highly nitrogen/sulfur dual-doped graphene and its ultrahigh discharge capacity in non-aqueous lithium oxygen batteries. Carbon Letters, 29(3), 297-305. doi: 10.1007/s42823-019-00026-y

Jang Seokhoon; Kim Jieun; NA EUN BEEN; Song Mingyu; Choi Jinkyu; Song KyongHwa; BAECK SUNG HYEON; SHIM SANG EUN. Facile synthesis of mesoporous and highly nitrogen/sulfur dual-doped graphene and its ultrahigh discharge capacity in non-aqueous lithium oxygen batteries. Carbon Letters. 2019; 29(3) 297-305. doi: 10.1007/s42823-019-00026-y

Jang Seokhoon, Kim Jieun, NA EUN BEEN, Song Mingyu, Choi Jinkyu, Song KyongHwa, BAECK SUNG HYEON, SHIM SANG EUN. Facile synthesis of mesoporous and highly nitrogen/sulfur dual-doped graphene and its ultrahigh discharge capacity in non-aqueous lithium oxygen batteries. 2019; 29(3), 297-305. Available from: doi:10.1007/s42823-019-00026-y

Jang Seokhoon, Kim Jieun, NA EUN BEEN, Song Mingyu, Choi Jinkyu, Song KyongHwa, BAECK SUNG HYEON and SHIM SANG EUN. "Facile synthesis of mesoporous and highly nitrogen/sulfur dual-doped graphene and its ultrahigh discharge capacity in non-aqueous lithium oxygen batteries" Carbon Letters 29, no.3 (2019) : 297-305.doi: 10.1007/s42823-019-00026-y