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1 Project Ideas Center for Physical Sciences and Technology Vilnius, Lithuania Dr. Jurga Juodkazyte suschem.org
2 CENTER FOR PHYSICAL SCIENCES AND TECHNOLOGY (FTMC) The largest scientific research institution in Lithuania (> 650 people) o Institute of Chemistry o Institute of Physics o Institute of Semiconductor Physics o Textile Institute
3 CENTER FOR PHYSICAL SCIENCES AND TECHNOLOGY The areas of competence of the Institute of Chemistry: o Functional coatings and materials (electroless deposition, electroplating, magnetron sputtering, ALD, anodizing) o Electrochemical material science and corrosion research (Accredited Corrosion Laboratory) o Spectroelectrochemistry (SERS) o Characterization of materials structure (XRD, SEM, TEM, XPS) o Tribology o Chemical waste treatment technologies Ni Magnetron sputtering: UNIVEX Pilot 350 production line of ALD Al anodizing device Fiji 200 TEM Tecnai G2 F20 X-TWIN Raman spectrometry: Renishaw invia System X-ray diffractometer SmartLab (Rigaku) Cu SEMs: Helios NanoLab 650 and EVO 50 EP Ag System for tribological measurements SUSCHEM
4 Fundamental Understanding of Aqueous Electrochemical Energy Storage Systems Modeling and Applications suschem.org
5 PROJECT IDEA CONCEPT Fundamental understanding of NASICON materials as battery electrodes Materials research: fundamental understanding of structure and properties of Na x M 2 (PO 4 ) 3-y (SiO 4 ) y ceramics (Na-ion mobility, electronic conductivity, electrode potentials etc.). Electrochemistry: fundamental understanding of aqueous electrolyte/electrode interfaces in Na-ion batteries. Materials engineering: novel NASICON ceramics with improved properties as cathode and anode materials. Electrochemical engineering: aqueous/nasicon interfaces with improved stability Methodology: structural analysis, electrochemical testing, molecular modeling Relevant topics and calls in the area of Energy / Materials Technologies / Process Technologies: LC-NMBP : Strengthening EU materials technologies for non-automotive battery storage (RIA) LC-EeB : Integrated storage systems for residential buildings (IA) DT-NMBP : Translation of manufacturing problems into materials modelling DT-NMBP : Open Innovation Hubs for Materials Modelling (IA) SUSCHEM Fundamental Understanding of Aqueous Electrochemical Energy Storage Systems: Modeling and Applications
6 Energy storage solutions EXPECTED IMPACT Large format aqueous Na-ion batteries Cheap Safe Durable Clean Durable Safe: only aqueous, non flammable components Clean: easily disposable and recyclable components Durable: % discharge cycles Cheap: low cost materials simple design Scalable: modular design More sustainable products More competitive products due to increased life time SUSCHEM Fundamental Understanding of Aqueous Electrochemical Energy Storage Systems: Modeling and Applications
7 LOOKING FOR PARTNERS We are looking for partners among: Groups developing new Li-ion and Na-ion materials and technologies o Electrochemistry o Structural characterization o Fundamental understanding of mechanisms in batteries o Molecular modelling Electrochemical energy storage system developers and engineers o Battery testing o Industrial system design, prototyping and testing SUSCHEM Fundamental Understanding of Aqueous Electrochemical Energy Storage Systems: Modeling and Applications
8 Contact details for project idea: Dr. Linas Vilčiauskas & Dr. Shannon K. Stauffer National Center for Physical Sciences and Technology Saulėtekio al. 3 LT Vilnius, Lithuania Phone: Linas.Vilciauskas@ftmc.lt Shannon.Stauffer@ftmc.lt suschem.org
raw materials C V Mn Mg S Al Ca Ti Cr Si G H Nb Na Zn Ni K Co A B C D E F
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