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Article
Porous Cu/C nanofibers promote electrochemical CO2-to-ethylene conversion via high CO2 availability
  • Bae, Daewon
  • Lee, Taemin
  • Kwon, Woosuck
  • Oh, Sang-Ho
  • Nam, Dae-Hyun
  • 2024-07
  • Bae, Daewon. (2024-07). Porous Cu/C nanofibers promote electrochemical CO2-to-ethylene conversion via high CO2 availability. Journal of Materials Chemistry A, 12(28), 17295–17305. doi: 10.1039/d4ta02358g
  • Royal Society of Chemistry
  • View : 394
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Article
Thermodynamic phase control of Cu-Sn alloy electrocatalysts for selective CO2 reduction
  • Go, Soohyun
  • Kwon, Woosuck
  • Hong, Deokgi
  • Lee, Taemin
  • Oh, Sang-Ho
  • Bae, Daewon
  • Kim, Jeong-Heon
  • Lim, Seolha
  • Joo, Young-Chang
  • Nam, Dae-Hyun
  • 2024-11
  • Go, Soohyun. (2024-11). Thermodynamic phase control of Cu-Sn alloy electrocatalysts for selective CO2 reduction. Nanoscale Horizons, 9(12), 2295–2305. doi: 10.1039/d4nh00393d
  • Royal Society of Chemistry
  • View : 306
  • Download : 0

Vitamin C-induced CO2 capture enables high-rate ethylene production in CO2 electroreduction

Article
Vitamin C-induced CO2 capture enables high-rate ethylene production in CO2 electroreduction
  • Kim, Jongyoun
  • Lee, Taemin
  • Jung, Hyun Dong
  • Kim, Minkyoung
  • Eo, Jungsu
  • Kang, Byeongjae
  • Jung, Hyeonwoo
  • Park, Jaehyoung
  • Bae, Daewon
  • Lee, Yujin
    • et al
  • 2024-01
  • Kim, Jongyoun. (2024-01). Vitamin C-induced CO2 capture enables high-rate ethylene production in CO2 electroreduction. Nature Communications, 15(1). doi: 10.1038/s41467-023-44586-0
  • Springer Nature
  • View : 274
  • Download : 57
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