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1 Ergebnisse
1
Nanostructured Mn-Doped Ni–Co Hydroxide Microspheres for Fa..:
Junjun Hu
;
Zhenhua Wu
;
Zhenying Sun
...
doi:10.1021/acsanm.3c05647.s001. , 2024
Link:
https://doi.org/10.1021/acsanm.3c05647.s001
RT Journal T1
Nanostructured Mn-Doped Ni–Co Hydroxide Microspheres for Fast-Kinetics Supercapacitors
UL https://suche.suub.uni-bremen.de/peid=base-ftgriffithunifig:oai:figshare.com:article_25109180&Exemplar=1&LAN=DE A1 Junjun Hu A1 Zhenhua Wu A1 Zhenying Sun A1 Shengshang Lu A1 Tong Guo A1 Wensheng Yang A1 Quan Xie A1 Yunjun Ruan YR 2024 K1 Biochemistry K1 Medicine K1 Molecular Biology K1 Neuroscience K1 Physiology K1 Biotechnology K1 Developmental Biology K1 Infectious Diseases K1 Chemical Sciences not elsewhere classified K1 remarkable specific capacity K1 hybrid supercapacitor consisting K1 energy storage systems K1 850 w kg K1 impressive energy density K1 density functional theory K1 undergoing 1500 cycles K1 kinetics supercapacitors transition K1 adjustable physicochemical properties K1 current density increases K1 performance electrode materials K1 including abundant nanostructures K1 high specific capacity K1 mn doping content K1 5 % K1 even K1 current density K1 performance transition K1 power density K1 mn doping K1 electrode ' K1 electrochemical properties K1 5000 cycles K1 wide range K1 thorough analysis K1 still maintain K1 speedy approach K1 nanostructured mn K1 mn cathode K1 metal hydroxides K1 mango seed K1 low cost K1 like manganese K1 highly promising K1 highly effective K1 fermi level K1 electrical conductivity K1 easy preparation K1 diverse compositions K1 crystal structure K1 creating high JF doi:10.1021/acsanm.3c05647.s001 LK http://dx.doi.org/https://doi.org/10.1021/acsanm.3c05647.s001 DO https://doi.org/10.1021/acsanm.3c05647.s001 SF ELIB - SuUB Bremen
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