The drive for sustainability in materials science and technology encompasses alternative energy technologies to mitigate problems with fossil-fuel technologies, and to increase energy efficiency, as well as the mitigation of undesirable environmental impacts from technology and economic growth; the efficient use of materials, the formation of a healthy and safe environment, and many others. The event will cover research focused on materials for sustainable development.

Topics

• Chiral Hybrid Organic-Inorganic Metal Halides: Synthesis – Theory – Applications
• Future of Metal Halide Perovskites: Fundamental Approaches and Technological Challenges
• From halide perovskites to perovskite-inspired materials – Synthesis and Applications
• Halide perovskites for quantum technologies
• Innovations beyond ABX3 perovskites: Material development, photophysics, and devices
• Reliability and Circularity of Perovskite-Based Photovoltaics
• Unconventional Perovskites and Related Materials: From Synthesis to Applications
• Illuminating the Future: Advancements in Photon Sources, Photodetectors, and Photonic Applications with 3D and low- dimensional metal halide perovskites
• The claim for sustainable materials in long lasting application
• Lead-free perovskites: Fundamentals and device applications
• Emerging Radiation Detectors
• Sustainability of halide perovskites
• Sustainable organic semiconductors for light to current applications
• Advancements in Memristor Technology: From Materials to Devices and Applications
• Post-Lithium Technologies toward Sustainable Batteries
• Sustainable energy materials and circularity
• In situ/operando characterization of electrochemical energy materials with synchrotron X-ray techniques
• Advances in Li-Metal All-Solid-State Batteries: Processing, Manufacturing, and Integration
• Interlinking heterogeneous catalysts, mechanisms, and reactor concepts for dinitrogen reduction
• CO₂ electrocatalysis for sustainable fuels and chemicals
• Electrochemical Water Treatment
• Nano Exploration of MXenes
• Numerical device modelling and Simulation of Solar cells and Light Emitting Diodes: methodologies and applications
• Emerging chalcogenide materials for thin film photovoltaic applications
• Understanding success of OSCs: stability and efficiency
• Multifunctional microporous materials for advanced applications in materials science
• Colloidal Nanocrystals and Derivatives: From Synthesis to Applications
• Advances in Nanocrystals: Fundamental approaches and technological perspectives
• Open Approaches and New Techniques in Materials Science
• Quantum Dots and Beyond: Pioneering Core-only and Core-Shell Structures for Future Applications

Scientific Organizing Committee

• Hernán Míguez, Consejo Superior de Investigaciones Científicas (CSIC), Spain
• Rebeca Marcilla, Electrochemical Processes Unit Institute IMDEA Energy, Spain
• Wolfgang Parak, Electrochemical Processes Unit Institute IMDEA Energy, Spain