Molecularly Imprinted Polymers (MIPs)

1. An introduction to molecularly imprinted polymers
2. Inefficient removal of template as a limitation of molecular imprinting of polymers
3. Computer aided modelling and theoretical calculations for rational design of MIPs
4. Role of monomer compositions in molecular imprinting
5. Material selection for fabrication of MIP based devices: An overview
6. Signal generation in MIP sensors: a critical analysis
7. Adaptability of MIPs for cutting-edge technology to devise cheap sensing tools
8. Molecularly imprinted polymer in electrochemical sensing - a step closer to achieving technology readiness
9. Molecularly imprinted polymers in optical sensing - an outlook for future
10. Stimuli-responsive imprinted polymers: Synthesis, application, and commercialization prospects
11. Biopolymers and their nanoparticles as imprinting matrix - introspection and commercialization prospects
12. Challenges in protein imprinting via epitope approach
13. Molecularly imprinted polymers: applications and challenges in biological and environmental sample analysis
14. Challenges in molecularly imprinted polymers in competition with biosensors at commercial scale
15. Patents based on molecularly imprinted polymers: exploring their commercial potential
16. Commercialized materials based on MIP
17. Commercialization prospects for MIP: A summary

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• Engenharia mecânica
• Física da Matéria Condensada (física do estado sólido e estado líquido)
• Tecnologia dos plásticos e polímeros
• Tecnologia das fibras e dos texteis

Ab initio methods; Ab initio methods for computational chemistry; Analytical chemistry; Analytical chemistry analysis; Analytical chemistry application; Analytical electrochemistry; Analytical method; Applicability; Artificial receptors; ATRP; Binding energy; Biochemical analysis; Biodevices; Bioelectrochemistry; Bioelectronics; Biopolymeric nanoparticles; Biopolymers; Bulk imprinting; Characterization; Chemical reaction engineering; Chemistry; Chemosensing Functional monomers; Commercialization; Computational chemistry; Computational chemistry by subject; Computational molecular modeling; Cross-linker; Deformation; Density functional theory; Device; Device type; Diagnostic equipment; Diagnostic procedure; Drug analysis; Drug development; Efficiency; Electrochemical sensor; Electrochemistry; Electronics; Epitope imprinting; Food analysis; Functional monomer; Iniferter; Innovation; Instrumentation; Materials structure; Materials synthesis; Molecular dynamics; Molecular imprinting; Molecular interaction; Molecular mechanics; Molecular mechanics calculation; Molecular modeling