Project description
High-performance potassium-ion batteries using high-tech electrode materials
Lithium prices are skyrocketing, and supply chains are increasingly challenged. Potassium is an abundant and inexpensive alternate material. However, potassium-ion batteries (KIBs) have short lifetimes, low energy content and long charging times limiting their use in electric vehicles and for renewable energy storage. The EU-funded POSIDON project plans to address these challenges by developing advanced hybrid KIBs leveraging metal-organic frameworks (MOFs) and graphene derivatives. Cathodes will have coaxial metallic and MOF nanowires doped with redox-active molecules to enhance conductivity and capacity. Innovative 2D anodes based on the graphene derivatives will act as hosts for single metal atoms, enhancing potassium deposition and potassium affinity while impeding processes that decrease life cycle and safety.
Objective
Potassium ion batteries (KIBs) offer unique opportunities for low-cost, sustainable, and high-performance electrochemical energy storage required for the electrification of transportation, and for storing energy from renewable but intermittent resources. However, concerted efforts are required to tackle the challenges of KIBs, such as the short life, low energy content, and long charging time. POSIDON will leverage the versatile material toolbox of metal-organic frameworks (MOFs) and graphene derivatives (core expertise of the applicant and host institution, respectively) to design and develop efficient electrode materials, and introduce a paradigm shift in KIBs performance. POSIDON will build advanced hybrid K-ion batteries (HyKIBs) by engineering and studying 1) strategically designed cathodes based on coaxial metallic/MOF nanowires doped with redox-active molecules to boost the conductivity and capacity, and 2) sophisticated two-dimensional anodes based on graphene derivatives with dense out-of-plane and in-plane functionalities as hosts for single metal atoms, acting as nucleation centers for the improvement of reversible deposition and stripping of potassium, of potassiophilicity and impeding dendrite formation, which is catastrophic for the life-cycle and safety. These electrodes will dramatically improve the capacity, the energy content of the HyKIBs, and prolong their life. Moreover, the high porosity of MOFs and the conductivity of the envisioned electrode architectures will promote potassium diffusivity for fast-charging operation. POSIDON will deliver practical cells of HyKIB devices with high performance to pave the way towards the commercialization of potassium-based energy storage, which is vital for a low carbon, sustainable, and fossil-fuel-independent civilization.
Fields of science
- natural scienceschemical scienceselectrochemistryelectric batteries
- engineering and technologyenvironmental engineeringenergy and fuelsrenewable energy
- engineering and technologynanotechnologynano-materialstwo-dimensional nanostructuresgraphene
- natural scienceschemical sciencesinorganic chemistryalkali metals
Keywords
Programme(s)
Funding Scheme
HORIZON-TMA-MSCA-PF-EF - HORIZON TMA MSCA Postdoctoral Fellowships - European FellowshipsCoordinator
771 47 Olomouc
Czechia