SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W4200260732> ?p ?o ?g. }

Showing items 1 to 100 of ±169 with 100 items per page.

W4200260732 endingPage "122954" @default.
W4200260732 startingPage "122954" @default.
W4200260732 abstract "High density nitrogen supporters, in particular nitrogen-based polymeric supporters of metal catalysts is a topic of high interest to boost the catalytic activity of oxygen reduction reaction (ORR), and accordingly improve fuel cell (FC) performance. Here, we offer a promising membrane electrode assembly (MEA) of a nitrogen-rich and highly conductive polymer; namely, poly(bipyridine-5,5′-bibenzimidazole) (BipyPBI). The MEA comprised BipyPBI as the membrane and platinum(Pt)/BipyPBI-functionalized multiwalled carbon nanotubes as the electrodes. The fabricated materials characterized by NMR, XPS, TEM, XRD, and TGA, and catalytically evaluated by CV, LSV, current-potential, and power density measurements. The fuel cell performance diagnosed by electrochemical impedance spectroscopy (EIS). The use of BipyPBI provided highly active fuel cell electrodes with a homogenous distribution of the Pt catalyst on the surface of carbon nanotubes. Notably, the onset overpotential of ORR lowered by ∼10 mV, the half-wave potential positively shifted by a 41 mV, and the diffusion-limiting current increased by 36 mA/mgPt, when the BipyPBI-based electrode compared to the conventional PBI-based electrode. Importantly, the power density of BipyPBI-based MEA reached 0.893 W/cm2 (1.48 W/mgPt) compared to 0.549 W/cm2 (0.94 W/mgPt) for the PBI-MEA. The EIS results indicated an improvement in the ohmic and charge transfer resistances of BipyPBI-based MEA, thanks to the high density nitrogen structure of BipyPBI which enhanced the proton conduction and the reaction kinetics. These results enrich the fuel cell research, and stimulate researchers engaged in related fields." @default.
W4200260732 created "2021-12-31" @default.
W4200260732 creator A5007347598 @default.
W4200260732 creator A5052981255 @default.
W4200260732 creator A5065013602 @default.
W4200260732 creator A5070880520 @default.
W4200260732 creator A5075453095 @default.
W4200260732 creator A5083974823 @default.
W4200260732 date "2022-03-01" @default.
W4200260732 modified "2023-10-16" @default.
W4200260732 title "Bipyridine-based polybenzimidazole as a nitrogen-rich ionomer and a platinum nanoparticle support for enhanced fuel cell performance" @default.
W4200260732 cites W1544040511 @default.
W4200260732 cites W1749627857 @default.
W4200260732 cites W1965396142 @default.
W4200260732 cites W1965986998 @default.
W4200260732 cites W1974479841 @default.
W4200260732 cites W1975373060 @default.
W4200260732 cites W1976365534 @default.
W4200260732 cites W1981285708 @default.
W4200260732 cites W1985757811 @default.
W4200260732 cites W1995856602 @default.
W4200260732 cites W1999292461 @default.
W4200260732 cites W1999789043 @default.
W4200260732 cites W2001177885 @default.
W4200260732 cites W2003138206 @default.
W4200260732 cites W2008617356 @default.
W4200260732 cites W2015663679 @default.
W4200260732 cites W2036987022 @default.
W4200260732 cites W2042131471 @default.
W4200260732 cites W2048671973 @default.
W4200260732 cites W2049672559 @default.
W4200260732 cites W2054822994 @default.
W4200260732 cites W2065924675 @default.
W4200260732 cites W2068228549 @default.
W4200260732 cites W2075209302 @default.
W4200260732 cites W2075303391 @default.
W4200260732 cites W2077628659 @default.
W4200260732 cites W2082734804 @default.
W4200260732 cites W2086697786 @default.
W4200260732 cites W2089692988 @default.
W4200260732 cites W2092857089 @default.
W4200260732 cites W2094963548 @default.
W4200260732 cites W2100647938 @default.
W4200260732 cites W2106608882 @default.
W4200260732 cites W2120208181 @default.
W4200260732 cites W2134243892 @default.
W4200260732 cites W2135456291 @default.
W4200260732 cites W2138780505 @default.
W4200260732 cites W2140713476 @default.
W4200260732 cites W2143011925 @default.
W4200260732 cites W2148944640 @default.
W4200260732 cites W2163585067 @default.
W4200260732 cites W2170774098 @default.
W4200260732 cites W2190851743 @default.
W4200260732 cites W2190938759 @default.
W4200260732 cites W2284625279 @default.
W4200260732 cites W2322967467 @default.
W4200260732 cites W2406607325 @default.
W4200260732 cites W2409746137 @default.
W4200260732 cites W2512286790 @default.
W4200260732 cites W2515462157 @default.
W4200260732 cites W2522794472 @default.
W4200260732 cites W2526216926 @default.
W4200260732 cites W2549902480 @default.
W4200260732 cites W2574471877 @default.
W4200260732 cites W2593665556 @default.
W4200260732 cites W2604914792 @default.
W4200260732 cites W2611415395 @default.
W4200260732 cites W2765181087 @default.
W4200260732 cites W2769633270 @default.
W4200260732 cites W2791458930 @default.
W4200260732 cites W2800671986 @default.
W4200260732 cites W2806975773 @default.
W4200260732 cites W2889427458 @default.
W4200260732 cites W2891567707 @default.
W4200260732 cites W2892299571 @default.
W4200260732 cites W2896667866 @default.
W4200260732 cites W2913869633 @default.
W4200260732 cites W2945006154 @default.
W4200260732 cites W2965942539 @default.
W4200260732 cites W2983484233 @default.
W4200260732 cites W3043584578 @default.
W4200260732 cites W3063893290 @default.
W4200260732 cites W3112936307 @default.
W4200260732 cites W617613578 @default.
W4200260732 doi "https://doi.org/10.1016/j.fuel.2021.122954" @default.
W4200260732 hasPublicationYear "2022" @default.
W4200260732 type Work @default.
W4200260732 citedByCount "2" @default.
W4200260732 countsByYear W42002607322022 @default.
W4200260732 countsByYear W42002607322023 @default.
W4200260732 crossrefType "journal-article" @default.
W4200260732 hasAuthorship W4200260732A5007347598 @default.
W4200260732 hasAuthorship W4200260732A5052981255 @default.
W4200260732 hasAuthorship W4200260732A5065013602 @default.
W4200260732 hasAuthorship W4200260732A5070880520 @default.
W4200260732 hasAuthorship W4200260732A5075453095 @default.
W4200260732 hasAuthorship W4200260732A5083974823 @default.