Dates: December 17-18, 2024
Venue: Dawood University of Engineering and Technology (DUET), Karachi, Pakistan
Major Theme:
1. Materials Engineering and Healthcare Sector
Develop and optimize biomaterials for medical applications, focusing on biocompatibility, longevity, and reduced infection risks to enhance patient outcomes in treatments and implants.
Innovate in drug delivery systems and tissue engineering by creating responsive materials that can deliver precise, controlled treatments, enabling personalized and regenerative medicine.2. Materials Engineering & Architecture-Construction Industry
Design sustainable and energy-efficient building materials, such as smart glass and self-healing concrete that reduce energy consumption and increase building durability.
Investigate the potential of lightweight composite materials to reduce construction costs, decrease environmental impact, and improve structural resilience against natural disasters.3. Materials Engineering & Green Energy for Sustainable Environment
Advance the development of high-efficiency materials for renewable energy applications, particularly in solar, wind, and battery technologies, to promote the global transition to clean energy sources.
Enhance the recyclability and sustainability of materials used in energy storage systems, reducing waste and supporting the circular economy in the green energy sector.4. Materials Engineering & Circular Economy - Smart Tech, Agribusiness, Avionics
Develop materials for smart technologies and electronic devices that are durable, recyclable, and environmentally friendly to support a sustainable and responsible electronics industry.
Design high-performance materials in agribusiness and avionics that maximize resource efficiency, reduce waste, and support circular practices, ultimately decreasing environmental impact across industries.
Venue: Dawood University of Engineering and Technology (DUET), Karachi, Pakistan
Major Theme:
1. Materials Engineering and Healthcare Sector
Develop and optimize biomaterials for medical applications, focusing on biocompatibility, longevity, and reduced infection risks to enhance patient outcomes in treatments and implants.
Innovate in drug delivery systems and tissue engineering by creating responsive materials that can deliver precise, controlled treatments, enabling personalized and regenerative medicine.2. Materials Engineering & Architecture-Construction Industry
Design sustainable and energy-efficient building materials, such as smart glass and self-healing concrete that reduce energy consumption and increase building durability.
Investigate the potential of lightweight composite materials to reduce construction costs, decrease environmental impact, and improve structural resilience against natural disasters.3. Materials Engineering & Green Energy for Sustainable Environment
Advance the development of high-efficiency materials for renewable energy applications, particularly in solar, wind, and battery technologies, to promote the global transition to clean energy sources.
Enhance the recyclability and sustainability of materials used in energy storage systems, reducing waste and supporting the circular economy in the green energy sector.4. Materials Engineering & Circular Economy - Smart Tech, Agribusiness, Avionics
Develop materials for smart technologies and electronic devices that are durable, recyclable, and environmentally friendly to support a sustainable and responsible electronics industry.
Design high-performance materials in agribusiness and avionics that maximize resource efficiency, reduce waste, and support circular practices, ultimately decreasing environmental impact across industries.
