The Energy and Fuels Division (ENFL) of the American Chemical Society (ACS) is leading in promoting research innovation, advancing multidisciplinary collaboration, fostering member communication, and creating an inclusive professional atmosphere (Figure 1 a). Dedicated to advancing materials and technologies for renewable energy, decarbonization,
Scientists, engineers and technicians, business representatives and students from all over the world engaged in energy storage materials and energy storage devices are welcome to participate in the conference and contribute actively.
The energy storage landscape in 2024 is characterized by innovation, sustainability, and decentralization. Next-gen batteries, green storage solutions, AI integration, and the electrification of transportation are driving forces shaping the future of energy storage.
We are hopeful that researchers around the world will succeed in developing materials with reduced material and energy footprints for energy conversion and storage, contributing to a more sustainable planet.
This will enable the development of a strong, environmentally friendly energy future that can meet global energy needs in a sustainable and fair manner.
The special issue " Cutting-edge materials for energy conversion and storage (AFMD-2024) " published in Emergent Materials showcases recent findings across the rich spectrum of energy-related materials and technologies.
2024 was a groundbreaking year for the energy storage industry. Record-breaking deployments, increasing technology diversity, and expansion into new global markets are just some of the major trends that shaped this rapidly growing sector.
This global English-language conference focuses on materials and technologies used in all forms of energy harvesting, conversion and storage, and aims to provide an international platform for scholars, scientists, engineers and students to present and discuss the latest research, bring novel insights and inspire more new ideas on energy
In order to design and construct materials for energy storage that are of high energy density and long-term outstanding stability, state-of-the-art energy storage technologies must be advanced.
This combination of a solid–liquid phase transition and a chemical reaction demonstrated here opens new pathways in the development of high energy capacity materials.
Scientists, engineers and technicians, business representatives and students from all over the world engaged in energy storage materials and energy storage devices are welcome to participate in the conference and contribute actively.
