CUHK Engineering develops energy-efficient redox flow battery
As 100 countries committed at COP28 to tripling global renewable energy use by 2030, the demand for large-scale energy storage is set to increase sharply. Sulphur-based
This tiny chemistry change makes flow batteries last far longer
A new advance in bromine-based flow batteries could remove one of the biggest obstacles to long-lasting, affordable energy storage. Scientists developed a way to chemically
Surpassing water-splitting potential in aqueous redox flow batteries
To overcome these obstacles and achieve high-potential AQRFBs, it becomes essential to incorporate a reaction-inhibitor to encounter water electrolysis during battery
A Closer Look at Vanadium Redox Flow Batteries
This is the first article in a five-part series on Vanadium Redox Flow Batteries written by Dr. Saleha (Sally) Kuzniewski, Ph.D. Kuzniewski is a scientist and a writer.
Catalytic electrolytes enable fast reaction kinetics and
Here, authors develop carbon quantum dot catalytic electrolytes that function both in electrolyte and at-interface to improve reaction kinetics and low-temperature adaptability in
Catalytic electrolytes enable fast reaction kinetics
Here, authors develop carbon quantum dot catalytic electrolytes that function both in electrolyte and at-interface to improve
Flow battery
The fundamental difference between conventional and flow batteries is that energy is stored in the electrode material in conventional batteries, while
Dual-Pathway Redox-Targeting Catalysis Promoting
Herein, a Prussian blue analogue Co 2 Fe (CN) 6 (CoHCF) coated with a nitrogenous carbon composite (CoHCF@NC) is designed to catalyze the redox-targeting
Surpassing water-splitting potential in aqueous
To overcome these obstacles and achieve high-potential AQRFBs, it becomes essential to incorporate a reaction-inhibitor to
CUHK Engineering develops energy-efficient redox flow battery with
As 100 countries committed at COP28 to tripling global renewable energy use by 2030, the demand for large
Unlocking Fast Fe–Cr Flow Battery Kinetics and Suppressing
This work establishes Sn nanoparticle catalysts as pivotal in resolving fundamental bottlenecks, thereby advancing Fe–Cr flow batteries toward practical applications.
Simulation of Mediator-Catalysis Process inside Redox Flow Battery
Redox flow batteries allow one to vary independently their power and their total redox capacity, as well as to accomplish rapid mechanical recharging by refilling their
Phosphorylation-engineered covalent organic frameworks enable
Covalent organic frameworks (COFs) have emerged as promising candidates for redox flow battery membranes due to their inherent advantages of well-defi
Flow battery
The fundamental difference between conventional and flow batteries is that energy is stored in the electrode material in conventional batteries, while in flow batteries it is stored in the electrolyte.