Microwave-Enhanced Polymer Chemistry and Technology
This session approaches Polymer technology forms one of the largest areas of application of microwave technology, the methods and procedures used therein are among the most developed. Microwave-Enhanced Polymer Chemistry and Technology describes novel approaches to polymer processing using microwave technologies. Coverage includes background and scientific data, analysis of processes and product properties in comparison with existing technology, applications that are being used in various approaches, and the status of current research. Features of microwave irradiation, i.e., solvent-free reactions, low waste, energy efficiency, high yield, short reaction time, and possible use of alternative solvents, can play an important role in the development of green chemistry methods.
This session represent Polymerization Processes under Microwave Conditions in Comparison with Conventional Conditions, Thermoplastic Polymers, Thermosetting Resins, Polymer Composites and Blends, Renewable Resources for the Preparation of Polymeric Materials and Polymer Modification, Recycling of Plastics, Commercialization and Scaling-Up.
The global polymer industry is expected to grow with a CAGR of 3.9% over 2015-2020.
- Polymerization Processes under Microwave Conditions in Comparison with Conventional Conditions
- Thermoplastic Polymers
- Thermosetting Resins
- Polymer Composites and Blends
- Renewable Resources for the Preparation of Polymeric Materials and Polymer Modification
- Recycling of Plastics
- Commercialization and Scaling-Up
Related Conference of Microwave-Enhanced Polymer Chemistry and Technology
Microwave-Enhanced Polymer Chemistry and Technology Conference Speakers
Recommended Sessions
- Biopolymers from Renewable Resources
- Recent Advances in Polymer Chemistry
- Recent Advances in Polymer Nanotechnology
- Advanced Biopolymers
- Advanced Polymer catalyst and energy application.
- Bio-Catalysis in chemistry
- Biomedical and Environmental Applications
- Biopolymers and Biodegradable Plastics
- Biopolymers: Applications and Trends
- Emerging Technology on Biopolymers; Processing and Products
- Marketing of polymer
- Microwave-Enhanced Polymer Chemistry and Technology
- Polymers for tissue engineering
- Recent Development in Biodegradable Materials
- Smart Material and Functional Polymers
- Solid waste management of polymers
- Synthetic Polymers
Related Journals
Are you interested in
- 3D Printing in Microfluidics - Microfluidics 2026 (Germany)
- AI & Automation in Microfluidic Systems - Microfluidics 2026 (Germany)
- Biomedical Microfluidic Applications - Microfluidics 2026 (Germany)
- Clinical Translation & Commercialization - Microfluidics 2026 (Germany)
- Droplet-Based Microfluidics - Microfluidics 2026 (Germany)
- Lab-on-a-Chip Innovations - Microfluidics 2026 (Germany)
- Microfabrication & Soft Lithography - Microfluidics 2026 (Germany)
- Microfluidic Biosensors & Diagnostics - Microfluidics 2026 (Germany)
- Microfluidic Cell Culture Platforms - Microfluidics 2026 (Germany)
- Microfluidics for Drug Delivery - Microfluidics 2026 (Germany)
- Microreactors & Chemical Processing - Microfluidics 2026 (Germany)
- Nanofluidics & Molecular Transport - Microfluidics 2026 (Germany)
- Organ-on-Chip Engineering - Microfluidics 2026 (Germany)
- Point-of-Care Microdevices - Microfluidics 2026 (Germany)
- Single-Cell Microfluidic Analysis - Microfluidics 2026 (Germany)