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Table of Contents
Part I: Introduction
1. Polymers meet topology
Part II: Fundamentals of topological polymers
2. Classification and notation by graph theory
3. Statistic physics and computational analyses
Part III: Synthetic chemistry of topological polymers
4. Electrostatic self-assembly and covalent fixation (ESA-CF)
5. Synthesis of spiro-polycyclic topological polymers
6. Synthesis of bridged-polycyclic topological polymers
7. Synthesis of fused-polycyclic topological polymers
8. Synthesis of hybrid-polycyclic topological polymers
Part IV: Topological polymer chemistry of macromoleclar chain folding
Chapter 9. Programmed folding of linear polymers
10. Cyclic polypeptide (Cyclotide) by chain folding
11. Chemical construction of a K3,3 graph polymer topology
Part V: Topological polymer chemistry of macromolecular networks
12. Topological polymer chemistry of macromolecular networks
Part VI: Topological polymer chemistry of macromolecular knots and catenanes
13. Knots and links by DNAs and proteins
14. Chemical synthesis of macromolecular knots and catenanes
Part VII: Innovations with cyclic polymers: Syntheses
15. Ring-closure of polymer precursors (RC)
16. Ring-expansion of cycloalkenes and alkynes by transition metal catalysts (RE)
17. Ring-expansion of heterocyclic and vinyl monomers by zwitterionic propagation (RE)
18. Electrostatic self-assembly and covalent fixation (ESA-CF)
Part VIII: Innovations with cyclic polymers: Topology effects
19. Computational and experimental analyses in solution and bulk states
20. Dynamic properties and response behaviors
21. Amplifying topology effects by self-assemblies
22. Transforming cyclic/linear polymer topologies
23. Advanced applications of tailored cyclic polymers
Part IX: Conclusion
24. Ongoing innovations and future perspectives.
1. Polymers meet topology
Part II: Fundamentals of topological polymers
2. Classification and notation by graph theory
3. Statistic physics and computational analyses
Part III: Synthetic chemistry of topological polymers
4. Electrostatic self-assembly and covalent fixation (ESA-CF)
5. Synthesis of spiro-polycyclic topological polymers
6. Synthesis of bridged-polycyclic topological polymers
7. Synthesis of fused-polycyclic topological polymers
8. Synthesis of hybrid-polycyclic topological polymers
Part IV: Topological polymer chemistry of macromoleclar chain folding
Chapter 9. Programmed folding of linear polymers
10. Cyclic polypeptide (Cyclotide) by chain folding
11. Chemical construction of a K3,3 graph polymer topology
Part V: Topological polymer chemistry of macromolecular networks
12. Topological polymer chemistry of macromolecular networks
Part VI: Topological polymer chemistry of macromolecular knots and catenanes
13. Knots and links by DNAs and proteins
14. Chemical synthesis of macromolecular knots and catenanes
Part VII: Innovations with cyclic polymers: Syntheses
15. Ring-closure of polymer precursors (RC)
16. Ring-expansion of cycloalkenes and alkynes by transition metal catalysts (RE)
17. Ring-expansion of heterocyclic and vinyl monomers by zwitterionic propagation (RE)
18. Electrostatic self-assembly and covalent fixation (ESA-CF)
Part VIII: Innovations with cyclic polymers: Topology effects
19. Computational and experimental analyses in solution and bulk states
20. Dynamic properties and response behaviors
21. Amplifying topology effects by self-assemblies
22. Transforming cyclic/linear polymer topologies
23. Advanced applications of tailored cyclic polymers
Part IX: Conclusion
24. Ongoing innovations and future perspectives.