机译:多孔纳米微复合材料作为高性能双功能空气电极,可充电锌空气电池具有显着的稳定性
WA School of Mines:Minerals Energy and Chemical Engineering(WASM‑MECE) Curtin University Perth WA 6845 Australia;
WA School of Mines:Minerals Energy and Chemical Engineering(WASM‑MECE) Curtin University Perth WA 6845 AustraliaSchool of Engineering Edith Cowan University Perth WA 6027 Australia;
WA School of Mines:Minerals Energy and Chemical Engineering(WASM‑MECE) Curtin University Perth WA 6845 Australia;
WA School of Mines:Minerals Energy and Chemical Engineering(WASM‑MECE) Curtin University Perth WA 6845 Australia;
WA School of Mines:Minerals Energy and Chemical Engineering(WASM‑MECE) Curtin University Perth WA 6845 Australia;
WA School of Mines:Minerals Energy and Chemical Engineering(WASM‑MECE) Curtin University Perth WA 6845 AustraliaState Key Laboratory of Materials‑Oriented Chemical Engineering College of Chemical Engineering Nanjing Tech University Nanjing 210009 Jiangsu People’s Republic of China;
BSCF perovskites; ZIF-67; Porous carbon; Zn-air batteries; Oxygen evolution reaction; Oxygen reduction reaction;