LEADER 05309nam 2200661Ia 450 001 9910465420903321 005 20200520144314.0 010 $a1-299-28126-5 010 $a981-4401-28-5 035 $a(CKB)2560000000099534 035 $a(EBL)1143328 035 $a(OCoLC)830162373 035 $a(SSID)ssj0000834298 035 $a(PQKBManifestationID)12426225 035 $a(PQKBTitleCode)TC0000834298 035 $a(PQKBWorkID)10936641 035 $a(PQKB)10705855 035 $a(MiAaPQ)EBC1143328 035 $a(WSP)00002914 035 $a(Au-PeEL)EBL1143328 035 $a(CaPaEBR)ebr10674393 035 $a(CaONFJC)MIL459376 035 $a(EXLCZ)992560000000099534 100 $a20121116d2013 uy 0 101 0 $aeng 135 $aur|n|---||||| 181 $ctxt 182 $cc 183 $acr 200 00$aTopological polymer chemistry$b[electronic resource] $eprogress of cyclic polymers in syntheses, properties and functions /$fedited by Yasuyuki Tezuka, Tokyo Institute of Technology, Japan 210 $aSingapore ;$aHackensack, NJ $cWorld Scientific$dc2013 215 $a1 online resource (365 p.) 300 $aDescription based upon print version of record. 311 $a981-4401-27-7 320 $aIncludes bibliographical references and index. 327 $aCONTENTS; General Introduction; References; Part I: Topological Polymer Chemistry - Concepts and Practices; Chapter 1: Systematic Classification of Nonlinear Polymer Topologies Yasuyuki Tezuka; 1. Introduction; 2. Classification of Branched Polymer Topologies; 3. Classification of Cyclic Polymer Topologies; 3.1. Monocyclic polymer topologies; 3.2. Multicyclic polymer topologies; 4. Ongoing Challenges and Future Perspectives; References; Chapter 2: Topological Isomers in Polymer Molecules Yasuyuki Tezuka; 1. Introduction; 2. Constitutional and Stereoisomers in Polymer Molecules 327 $a3. Topological Isomers in Polymer Molecules4. Polymeric Topological Isomers and Homologues; 5. Topological Isomers in Dicyclic Polymer Molecules; 6. Ongoing Challenges and Future Perspectives; References; Chapter 3: Telechelics Having Cyclic Onium Salt Groups Yasuyuki Tezuka; 1. Introduction; 2. Telechelics Having Various Cyclic Onium Salt Groups; 2.1. Telechelics having 4-membered cyclic ammonium (azetidinium) salt groups; 2.2. Telechelics having 5-membered cyclic sulfonium salt groups 327 $a2.3. Telechelics having 5-membered cyclic ammonium (pyrrolidinium) and 6-membered bicyclic ammonium (quinuclidinium) salt groups3. Ion-Coupling Reactions with Telechelics Having Cyclic Onium Salt Groups; 3.1. Star polymers and polymacromonomers; 3.2. Model networks; 3.3. Graft copolymers and network copolymers; 4. Ongoing Challenges and Future Perspectives; References; Chapter 4: Electrostatic Self-Assembly and Covalent Fixation (ESA-CF) Process Yasuyuki Tezuka; 1. Introduction; 2. Control of the Reactivity by the Ring Size of Cyclic Onium Salts; 2.1. Ring-opening reactions 327 $a2.2. Ring-emitting reactions3. Electrostatic Polymer Self-Assembly and Covalent Fixation for Complex Polymer Topologies; 3.1. Ring (simple cyclic) polymers; 3.2. Multicyclic and cyclic-linear hybrid polymers; 4. Ongoing Challenges and Future Perspectives; References; Chapter 5: Dynamic Control of Polymer Topologies by the ESA-CF Process Yasuyuki Tezuka; 1. Introduction; 2. Dynamic Equilibrium in Electrostatic Polymer Self-Assembly; 3. Tadpole Polymers by Dynamic Selection in Electrostatic Polymer Self-Assembly; 4. Polymeric Topological Isomers of - and Manacle-Forms 327 $a5. Co-Polymacromonomers by Reshuffling in Electrostatic Polymer Self-Assembly6. Polymer Catenanes by Orthogonal Electrostatic and Hydrogen- Bonding Polymer Self-Assembly; 7. Ongoing Challenges and Future Perspectives; References; Chapter 6: Cyclic and Multicyclic Polymers Having Functional Groups (Kyklo-Telechelics) Yasuyuki Tezuka; 1. Introduction; 2. Single Cyclic Polymers Having Functional Groups; 3. Cyclic Macromonomers; 4. Tadpole Polymers Having Functional Groups; 5. Multiyclic Polymers Having Functional Groups at the Prescribed Positions 327 $a6. Cyclic Polymers Having Non-Reactive Functional Groups 330 $aThere are examples aplenty in the macroscopic world that demonstrate the form of objects directing their functions and properties. On the other hand, the fabrication of extremely small objects having precisely defined structures has only recently become an attractive challenge, which is now opening the door to nanoscience and nanotechnology.In the field of synthetic polymer chemistry, a number of critical breakthroughs have been achieved during the first decade of this century to produce an important class of polymers having a variety of cyclic and multicyclic topologies. These developments no 606 $aCyclopolymerization 606 $aTopology 608 $aElectronic books. 615 0$aCyclopolymerization. 615 0$aTopology. 676 $a547.28 676 $a547.7 676 $a547/.28 701 $aTezuka$b Yasuyuki$0781825 801 0$bMiAaPQ 801 1$bMiAaPQ 801 2$bMiAaPQ 906 $aBOOK 912 $a9910465420903321 996 $aTopological polymer chemistry$92067284 997 $aUNINA LEADER 01287nam0-2200337 --450 001 9910805396203321 005 20240223113404.0 010 $a978-88-351-2861-8 100 $a20240222d2023----kmuy0itay5050 ba 101 0 $aita 102 $aIT 105 $a 001yy 200 1 $a<>governo della povertà$ele politiche sociali in Campania$escenari, processi di innovazione e Reddito di cittadinanza$fGiuseppe Luca De Luca Picione, Lucia Fortini, Domenico Trezza 210 $aMilano$cFranco Angeli$d2023 215 $a227 p.$d23 cm 225 1 $aWelfare. 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