1 J. Kai, 166 : 246-254, 2019
2 Z. Q. Liu, "ZnCo2O4quantum dots anchored on nitrogen-doped carbon nanotubes as reversible oxygen reduction/evolution electrocatalysts" 28 : 3777-3784, 2016
3 M. Momirlan, "The properties of hydrogen as fuel tomorrow in sustainable energy system for a cleaner planet" 30 : 795-802, 2005
4 Y. S. Park, "Superior performacne of anion exchange membrane water electrolyzer: Ensemble of producing oxygen vacancies and controlling mass transfer resistance" 278 : 119276-, 2020
5 M. J. Jang, "Superior performacne and stability of anion exchange membrane water electrolysis: pH-controlled copper cobalt oxide nanoparticles for the oxygen evolution reaction" 8 : 4290-4299, 2020
6 W. Xu, "Porous cobalt oxide nanoplates enriched with oxygen vacancies for oxygen evolution reaction" 43 : 110-116, 2018
7 X. Li, "Manipulating interfaces of electrocatalysts down to atomic scales: Fundamentals, strategies, and electrocatalytic applications" 5 : 2001010-, 2021
8 M. Yu, "Insights into low-carbon hydrogen production methods:Green, blue and aqua hydrogen" 46 : 21261-21273, 2021
9 P. Fortin, "High-performance alkaline water electrolysis using Aemion™anion exchange membranes" 451 : 227814-, 2020
10 H. A. Miller, "Green hydrogen from anion exchange membrane water electrolysis: a review of recent developments in critical materials and operating conditions" 4 : 2114-2133, 2020
1 J. Kai, 166 : 246-254, 2019
2 Z. Q. Liu, "ZnCo2O4quantum dots anchored on nitrogen-doped carbon nanotubes as reversible oxygen reduction/evolution electrocatalysts" 28 : 3777-3784, 2016
3 M. Momirlan, "The properties of hydrogen as fuel tomorrow in sustainable energy system for a cleaner planet" 30 : 795-802, 2005
4 Y. S. Park, "Superior performacne of anion exchange membrane water electrolyzer: Ensemble of producing oxygen vacancies and controlling mass transfer resistance" 278 : 119276-, 2020
5 M. J. Jang, "Superior performacne and stability of anion exchange membrane water electrolysis: pH-controlled copper cobalt oxide nanoparticles for the oxygen evolution reaction" 8 : 4290-4299, 2020
6 W. Xu, "Porous cobalt oxide nanoplates enriched with oxygen vacancies for oxygen evolution reaction" 43 : 110-116, 2018
7 X. Li, "Manipulating interfaces of electrocatalysts down to atomic scales: Fundamentals, strategies, and electrocatalytic applications" 5 : 2001010-, 2021
8 M. Yu, "Insights into low-carbon hydrogen production methods:Green, blue and aqua hydrogen" 46 : 21261-21273, 2021
9 P. Fortin, "High-performance alkaline water electrolysis using Aemion™anion exchange membranes" 451 : 227814-, 2020
10 H. A. Miller, "Green hydrogen from anion exchange membrane water electrolysis: a review of recent developments in critical materials and operating conditions" 4 : 2114-2133, 2020
11 A. Yavuz, "Effect of electrodeposition potential and time for nickel film generation from ionic liquid electrolytes for asymmetric supercapacitor production" 711 : 138309-, 2020
12 Yoo Sei Park, "Commercial anion exchange membrane water electrolyzer stack through non-precious metal electrocatalysts" Elsevier BV 292 : 120170-, 2021