Call for papers/Topics

So, Topics of Interest for Submission include, but are Not Limited to:

I. Core Green Chemistry Principles & Applications:

• Sustainable Feedstocks:
  • Biomass conversion and utilization (lignocellulosic, algal, etc.)
  • Utilizing waste streams as renewable resources.
  • Development of bio-based polymers and materials.
  • Sustainable sourcing of raw materials.
• Green Synthesis & Catalysis:
  • Biocatalysis and enzyme engineering.
  • Heterogeneous and homogeneous catalysis for sustainable processes.
  • Photocatalysis and electrocatalysis for environmental remediation.
  • Development of safer and more efficient synthetic routes.
  • Atom economy and efficient synthesis design.
• Green Solvents & Reaction Media:
  • Ionic liquids, supercritical fluids, and deep eutectic solvents.
  • Aqueous and solvent-free reactions.
  • Minimizing solvent waste and emissions.
  • Alternative and sustainable reaction media.
• Green Analytical Chemistry:
  • Developing analytical methods with reduced environmental impact.
  • On-site and real-time monitoring of pollutants.
  • Sustainable sample preparation techniques.
• Life Cycle Assessment (LCA) & Green Metrics:
  • Evaluating the environmental impact of chemical processes and products.
  • Developing and applying green chemistry metrics and indicators.
  • Sustainable product design and development.
  • Circular economy and green chemistry.

II. Sustainable Environmental Solutions:

• Water Remediation & Purification:
  • Advanced oxidation processes (AOPs) for water treatment.
  • Membrane technologies for water purification.
  • Removal of emerging contaminants (pharmaceuticals, microplastics, etc.).
  • Sustainable sanitation and wastewater treatment.
• Air Pollution Control & Mitigation:
  • Development of catalysts for air pollutant removal (NOx, SOx, VOCs).
  • Sustainable technologies for greenhouse gas reduction (CO2 capture, utilization).
  • Indoor air quality improvement.
  • Monitoring and control of particulate matter.
• Soil Remediation & Sustainable Agriculture:
  • Phytoremediation and bioremediation of contaminated soils.
  • Sustainable fertilizer and pesticide development.
  • Organic farming and agroecology.
  • Sustainable land management and erosion control.
• Waste Management & Circular Economy:
  • Chemical recycling and upcycling of waste materials.
  • Development of biodegradable and compostable materials.
  • Designing for circularity and closed-loop systems.
  • E-waste processing.
• Sustainable Energy & Materials:
  • Green synthesis of materials for solar cells, batteries, and fuel cells.
  • Development of sustainable energy storage and conversion technologies.
  • Sustainable construction materials.
  • Biofuels.

III. Interdisciplinary & Societal Aspects:

• Green Chemistry Education & Outreach:
  • Integrating green chemistry principles into curricula.
  • Promoting public awareness and engagement.
  • Building capacity for sustainable innovation.
• Policy & Regulation for Green Chemistry:
  • Developing sustainable chemical policies and regulations.
  • Promoting industry adoption of green chemistry practices.
  • International collaboration for sustainable development.
• Sustainable Development Goals (SDGs) & Green Chemistry:
  • Addressing global challenges through green chemistry solutions.
  • Integrating green chemistry into sustainable development strategies.
• Ethical Considerations in Green Chemistry:
  • Responsible innovation and risk assessment.
  • Equitable distribution of green technologies.
  • The long term effects of new technologies.
• Green chemistry and sustainable business practices.
• The role of green chemistry in developing sustainable infrastructure.