Scope: The
scope of the Journal of Advanced Research in Sustainable Materials Science
and Engineering encompasses a wide range of topics that integrate materials
science with sustainability and environmental considerations. It includes
research, development, and application of materials that contribute to a more
sustainable and eco-friendly future. The key areas covered by the journal
include:
1. Sustainable Materials Development
- Environmentally friendly materials
- Renewable materials
- Biodegradable materials
- Recyclable materials
- Bio-based materials
- Renewable resource-based materials
- Low-carbon footprint materials
- Eco-friendly material innovation
- Sustainable material alternatives
- Green materials design
2. Energy-Efficient Materials and
Technologies
- Energy generation materials
- Energy storage materials
- Solar cells
- Batteries for energy storage
- Fuel cells
- Energy-efficient coatings
- Insulation materials
- Thermal management materials
- Energy harvesting materials
- Smart grid technologies
- Thermoelectric materials
3. Recycling, Upcycling, and
Reprocessing of Materials
- Recycling technologies
- Upcycling materials
- Resource efficiency
- Closed-loop systems
- Life cycle extension
- Waste reduction
- Material reuse
- Circular economy
- Material recovery
- Sustainable waste management
4. Green Manufacturing
- Sustainable manufacturing processes
- Energy-efficient production
- Water-efficient manufacturing
- Raw material efficiency
- Waste minimization techniques
- Low-emission production methods
- Additive manufacturing (3D printing)
- Eco-design in manufacturing
- Sustainable supply chains
- Green production practices
5. Environmental and Ecological Impact
of Materials
- Life cycle assessment (LCA)
- Environmental impact studies
- Material toxicity
- Non-toxic material alternatives
- Carbon footprint reduction
- Environmental effects of materials
- Ecological footprint of materials
- Sustainability metrics
- Resource depletion
- Material life cycle management
6. Nanomaterials and Advanced Functional
Materials
- Nanomaterials
- Advanced composites
- Smart materials
- Multifunctional materials
- Self-healing materials
- Adaptive materials
- Nanotechnology in energy storage
- Water treatment materials
- Pollution control materials
- Nanomaterials for sustainability
7. Materials for Sustainable
Infrastructure
- Sustainable construction materials
- Low-carbon concrete
- Green roofing materials
- Energy-efficient building components
- Lightweight composites
- Eco-friendly coatings for vehicles
- Sustainable transportation materials
- Green electronics
- Sustainable consumer products
- Sustainable infrastructure technologies
8. Environmental Sustainability in
Material Engineering
- Ecological footprint reduction
- Natural fibers in materials
- Bioplastics
- Eco-friendly additives
- Circular economy in materials
- Resource recovery
- End-of-life recycling
- Sustainable material design
- Green engineering practices
- Environmental policies and strategies
9. Interdisciplinary Studies
- Collaborative research
- Materials science and environmental engineering
- Policy and sustainability
- Social, economic, and environmental integration
- Cross-disciplinary solutions
- Sustainable technology development
- Innovation in material sustainability
- Interdisciplinary sustainability research
- Material engineering and public policy
- Environmental and economic integration
