2016
DOI: 10.1016/j.energy.2015.12.088
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Synergistic effect of boron/nitrogen co-doping into graphene and intercalation of carbon black for Pt-BCN-Gr/CB hybrid catalyst on cell performance of polymer electrolyte membrane fuel cell

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Cited by 36 publications
(9 citation statements)
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“…More importantly, the high content of N species synergying with B‐doping can change the electronic structure of carbon material. [ 37,47 ] Figure 3k shows the schematic illustration of the electron‐deficient B and electron‐rich N feature of BN‐PC. The attached B‐containing groups have good hole‐donor characteristic and reinforce the hole‐transfer reactivity, while the attached N‐containing groups have good electron‐donor characteristic and high charge mobility.…”
Section: Resultsmentioning
confidence: 99%
See 1 more Smart Citation
“…More importantly, the high content of N species synergying with B‐doping can change the electronic structure of carbon material. [ 37,47 ] Figure 3k shows the schematic illustration of the electron‐deficient B and electron‐rich N feature of BN‐PC. The attached B‐containing groups have good hole‐donor characteristic and reinforce the hole‐transfer reactivity, while the attached N‐containing groups have good electron‐donor characteristic and high charge mobility.…”
Section: Resultsmentioning
confidence: 99%
“…Importanly, the introduction of nitrogen into the carbon lattice can produce high pseudocapacitance, while boron doping can arouse a shift of the Fermi level to the conducting band, resulting in a better conductivity of carbon materials. [ 36,37 ] Therefore, B and N co‐doping provides us a good chance to enhance the overall electrochemical performance of carbon materials by tuning reaction activity, electronic conductivity, and surface compatibility.…”
Section: Introductionmentioning
confidence: 99%
“…The hydrothermal treatment of reduced graphene oxide with boric acid and dicyandiamide (2 h at 600 °C) was studied by Lee et al . They reported that the ORR catalytic performance of Pt on a hybrid support made of the B/N co‐doped graphene (BCN−Gr) and carbon black (CB) could be tuned by adjusting the amount of intercalated CB (0–60 wt.%, Figure 2e) used [86] . The improved performance, with up to 50 wt.% CB in the hybrid support, was attributed to the facile mass transfer of the adsorbed O 2 molecules and/or *OOH radical on the Pt active sites.…”
Section: Applications Of B/n Co‐doped Graphene In Electrochemical Ene...mentioning
confidence: 99%
“…However, this has changed after the invention of highly conductive 2D graphene sheets [160][161][162][163]. Fuel cells mainly consist of 3 parts: anode, cathode and a separation membrane.…”
Section: Energy Conversionmentioning
confidence: 99%