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Materials Research Forum (MRF)

Materials Research Forum (MRF) serves as a dedicated platform for the dissemination of high-quality research in advanced materials for sustainable energy and environmental applications. The forum promotes scholarly exchange among researchers, engineers, and technologists working on cutting-edge materials, devices, and systems that address global challenges in energy conversion, storage, and environmental sustainability. Emphasis is placed on interdisciplinary approaches, innovation-driven solutions, and the integration of experimental and computational methodologies.

All submissions must be prepared using the to ensure consistency and compliance with publication standards. MRF welcomes contributions in, but not limited to, the following thematic areas:

Energy Conversion: Perovskite, organic, dye-sensitized, thin-film, quantum dot, and tandem solar cells, as well as photochromic and thermoelectric materials and systems.

Energy Storage: Rechargeable batteries (Li-ion, Na-ion, emerging systems), supercapacitors, hybrid energy storage devices, thermal energy storage (phase change materials), and gas storage and conversion technologies (HER, OER, ORR).

Environmental Technologies: Sensors for environmental monitoring, air pollution monitoring and mitigation, water pollution treatment and remediation, and nanocatalysis for environmental applications.

Machine Learning and Modelling: Machine learning for materials discovery and design, computational modelling and simulation, and data-driven optimization of energy and environmental systems.

Energy Technology (Wiley-VCH)

Energy Technology serves as a leading interdisciplinary platform for the publication of high-quality research in sustainable energy systems, advanced materials, and environmentally responsible technologies. The journal promotes scientific exchange among researchers, engineers, technologists, and policymakers working toward innovative solutions for global energy and environmental challenges. Emphasis is placed on emerging materials, sustainable energy technologies, techno-economic feasibility, system integration, and data-driven approaches that accelerate the transition toward a low-carbon and sustainable future.

This Special Issue, titled “Emerging Materials for Sustainable Energy and Environment,” highlights recent advances in sustainable energy technologies and the development of emerging materials designed to improve energy efficiency, device performance, environmental sustainability, and industrial applicability. The issue aims to showcase the synergistic integration of advanced materials, energy systems, computational modelling, and machine learning techniques.

All submissions must be prepared according to the official Wiley-VCH Energy Technology manuscript guidelines to ensure consistency and compliance with publication standards. The Special Issue welcomes contributions in, but not limited to:

Energy Conversion: Perovskite, organic, dye-sensitized, thin-film, quantum dot, and tandem solar cells; photochromic and thermoelectric materials; photocatalysis; and advanced renewable energy conversion technologies.

Energy Storage: Rechargeable batteries (Li-ion, Na-ion, and emerging systems), supercapacitors, hybrid and electrochromic energy storage, thermal energy storage (phase change materials), hydrogen storage, and gas conversion (HER, OER, ORR).

Environmental Technologies: Environmental sensors, air pollution mitigation, water treatment, nanocatalysis, waste-to-energy, carbon capture, green buildings, and sustainable industrial processes.

Machine Learning and Modelling: ML for materials discovery, computational simulation, AI for energy systems, data-driven optimization, and techno-economic analysis.

Sustainable Development and Integrated Systems: Smart grids, electric vehicles, solar thermal systems, circular economy strategies, and policies supporting global sustainable development goals.