Erika Ishida
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View article: Frontispiz: An Aqueous Redox Flow Battery Using CO<sub>2</sub> as an Active Material with a Homogeneous Ir Catalyst
Frontispiz: An Aqueous Redox Flow Battery Using CO<sub>2</sub> as an Active Material with a Homogeneous Ir Catalyst Open
Batteries. In their Research Article (e202310976), Ryoichi Kanega, Akira Yamamoto et al. report an aqueous redox flow battery using CO2 as an active material with a homogeneous Ir catalyst.
View article: Frontispiece: An Aqueous Redox Flow Battery Using CO<sub>2</sub> as an Active Material with a Homogeneous Ir Catalyst
Frontispiece: An Aqueous Redox Flow Battery Using CO<sub>2</sub> as an Active Material with a Homogeneous Ir Catalyst Open
Batteries. In their Research Article (e202310976), Ryoichi Kanega, Akira Yamamoto et al. report an aqueous redox flow battery using CO2 as an active material with a homogeneous Ir catalyst.
View article: Novel aqueous flow battery using CO2 redox with a bifunctional homogeneous Ir catalyst
Novel aqueous flow battery using CO2 redox with a bifunctional homogeneous Ir catalyst Open
To suppress CO2 emissions, technologies that incorporate CO2 capture, utilization, and storage are being actively developed. Particularly, batteries using CO2 redox reactions are one of the most promising systems that combine energy conver…
View article: Redox-Flow Battery Operating in Neutral and Acidic Environments with Multielectron-Transfer-Type Viologen Molecular Assembly
Redox-Flow Battery Operating in Neutral and Acidic Environments with Multielectron-Transfer-Type Viologen Molecular Assembly Open
Recently, redox flow batteries (RFBs) have attracted attention as a large-scale energy storage technology. To improve their energy density, we investigated organic-based active materials with high water solubility, synthesized regular dend…