Schottky Junction Effect on High Performance Fuel Cells Based on Nanocomposite Materials | Zendy

Zhu Bin | Zendy; Lund Peter D. | Zendy; Raza Rizwan | Zendy; Ma Ying | Zendy; Fan Liangdong | Zendy; Afzal Muhammad | Zendy; Patakangas Janne | Zendy; He Yunjun | Zendy; Zhao Yufeng | Zendy; Tan Wenyi | Zendy; Huang QiuAn | Zendy; Zhang Jun | Zendy; Wang Hao | Zendy

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Schottky Junction Effect on High Performance Fuel Cells Based on Nanocomposite Materials

Author(s) -

Zhu Bin,

Lund Peter D.,

Raza Rizwan,

Ma Ying,

Fan Liangdong,

Afzal Muhammad,

Patakangas Janne,

He Yunjun,

Zhao Yufeng,

Tan Wenyi,

Huang QiuAn,

Zhang Jun,

Wang Hao

Publication year - 2015

Publication title -

advanced energy materials

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 10.08

H-Index - 220

eISSN - 1614-6840

pISSN - 1614-6832

DOI - 10.1002/aenm.201401895

Subject(s) - schottky diode , materials science , schottky barrier , fuel cells , nanocomposite , optoelectronics , power (physics) , service (business) , nanotechnology , engineering physics , chemical engineering , physics , engineering , business , diode , quantum mechanics , marketing

A novel fuel cell device based on integrating the Schottky junction effect with the electrochemical principle is designed, constructed, and verified through experiments. It is found that the Schottky junction has a significant effect on the greatly enhanced device performance, and the fuel cell device incorporating the Schottky junction effect reaches a power output of 1000 mW cm −2 at 550 °C.

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