Progress beyond state of the art
• Project GLOBE has identified a number of organic redox active species, addressed their chemical stability and measured their solubility in water.
• We have increased the potential of anthraquinone disulfonic acid/bromine battery from 0.86 V to 1.3 V (40%) and managed to operate the battery at differential pH, at mild pH conditions, improved conditions compared to harsh acidic conditions of the original battery.
• We have developed new very water soluble organic redox active species for the positive side, however there are chemical stability issues. One type includes azo disulfonate species, another includes derivatives of hydroquinone. We have now started with new research into water soluble and chemically stable species for the positive side.
• We have applied anthraquinone oligomers/polymers in nickel solid state battery, instead of metal hydride and cadmium. This resulted in a new battery that is able to deliver around 1000 cycles, however the battery losses around 70% of its capacity.
• We have directly fully solar charged a semi-organic redox flow battery.
The GLOBE’s outcomes will have both social and economic impact, by sharing the new insights publicly, and by using our current knowledge to establish foundations for a new type of semi organic redox flow battery, that could be commercialized within the next 6 years (in ORBAT project funded currently by Innovation Fond Denmark). GLOBE’s results are expected to promote innovation in the field of organic redox flow and solid-state batteries, given the developed new types of species, however there are also future plans on developing new types of organic solid-state batteries. Our results will strengthen the global competitiveness of the European electrical energy storage industry.