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Article
A facile in-situ activation of protonated histidine-derived porous carbon for electrochemical capacitive energy storage
  • Tran, Thanh Nhan
  • Kim, Hwa Jung
  • Samdani, Jitendra
  • Hwang, Jun Yeon
  • Ku, Bon-Cheol
  • Lee, Jae Kwan
  • Yu, Jong-Sung
  • 2019-05
  • Tran, Thanh Nhan. (2019-05). A facile in-situ activation of protonated histidine-derived porous carbon for electrochemical capacitive energy storage. doi: 10.1016/j.jiec.2019.01.044
  • Korean Society of Industrial Engineering Chemistry
  • View : 967
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Article
A Stable Graphitic, Nanocarbon-Encapsulated, Cobalt-Rich Core-Shell Electrocatalyst as an Oxygen Electrode in a Water Electrolyzer
  • Sivanantham, Arumugam
  • Ganesan, Pandian
  • Estevez, Luis
  • Mcgrail, B. Peter
  • Motkuri, Radha Kishan
  • Shanmugam, Sangaraju
  • 2018-05
  • Sivanantham, Arumugam. (2018-05). A Stable Graphitic, Nanocarbon-Encapsulated, Cobalt-Rich Core-Shell Electrocatalyst as an Oxygen Electrode in a Water Electrolyzer. Advanced Energy Materials, 8(14). doi: 10.1002/aenm.201702838
  • Wiley-VCH Verlag
  • View : 1150
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Article
Fe-P: A New Class of Electroactive Catalyst for Oxygen Reduction Reaction
  • 2015-03
  • Singh, Kiran Pal. (2015-03). Fe-P: A New Class of Electroactive Catalyst for Oxygen Reduction Reaction. Journal of the American Chemical Society, 137(9), 3165–3168. doi: 10.1021/ja511759u
  • American Chemical Society
  • View : 995
  • Download : 0

High pressure pyrolyzed non-precious metal oxygen reduction catalysts for alkaline polymer electrolyte membrane fuel cells

Article
High pressure pyrolyzed non-precious metal oxygen reduction catalysts for alkaline polymer electrolyte membrane fuel cells
  • 2015
  • Sanetuntikul, Jakkid. (2015). High pressure pyrolyzed non-precious metal oxygen reduction catalysts for alkaline polymer electrolyte membrane fuel cells. Nanoscale, 7(17), 7644–7650. doi: 10.1039/c5nr00311c
  • Royal Society of Chemistry
  • View : 875
  • Download : 263

Iron-polypyrrole electrocatalyst with remarkable activity and stability for ORR in both alkaline and acidic conditions: a comprehensive assessment of catalyst preparation sequence

Article
Iron-polypyrrole electrocatalyst with remarkable activity and stability for ORR in both alkaline and acidic conditions: a comprehensive assessment of catalyst preparation sequence
  • Thanh-Nhan Tran
  • Song, Minyoung
  • Singh, Kiran Pal
  • Yang, Dae-Soo
  • Yu, Jong-Sung
  • 2016-06
  • Thanh-Nhan Tran. (2016-06). Iron-polypyrrole electrocatalyst with remarkable activity and stability for ORR in both alkaline and acidic conditions: a comprehensive assessment of catalyst preparation sequence. Journal of Materials Chemistry A, 4(22), 8645–8657. doi: 10.1039/c6ta01543c
  • Royal Society of Chemistry
  • View : 981
  • Download : 53
Article
Nitrogen-Doped Porous Multi-Nano-Channel Nanocarbons for Use in High-Performance Supercapacitor Applications
  • 2016-04
  • Ramakrishnan, Prakash. (2016-04). Nitrogen-Doped Porous Multi-Nano-Channel Nanocarbons for Use in High-Performance Supercapacitor Applications. ACS Sustainable Chemistry and Engineering, 4(4), 2439–2448. doi: 10.1021/acssuschemeng.6b00289
  • American Chemical Society
  • View : 1268
  • Download : 0
Article
Phase Diversity of Nickel Phosphides in Oxygen Reduction Catalysis
  • 2018-07
  • Razmjooei, Fatemeh. (2018-07). Phase Diversity of Nickel Phosphides in Oxygen Reduction Catalysis. doi: 10.1002/celc.201800232
  • Wiley-VCH Verlag
  • View : 781
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Article
Superior pore network retention of carbon derived from naturally dried ginkgo leaves and its enhanced oxygen reduction performance
  • 2016-02
  • Razmjooei, Fatemeh. (2016-02). Superior pore network retention of carbon derived from naturally dried ginkgo leaves and its enhanced oxygen reduction performance. Catalysis Today, 260, 148–157. doi: 10.1016/j.cattod.2015.06.012
  • Elsevier B.V.
  • View : 878
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Article
The influence of Co3V2O8 morphology on the oxygen evolution reaction activity and stability
  • 2016-02
  • Hyun, Suyeon. (2016-02). The influence of Co3V2O8 morphology on the oxygen evolution reaction activity and stability. Electrochemistry Communications, 63, 44–47. doi: 10.1016/j.elecom.2015.12.012
  • Elsevier
  • View : 1192
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