Mary Nell Higley scite author profile

A novel methodology for the formation of block copolymers has been developed that combines ring-opening metathesis polymerization (ROMP) with functional chain-transfer agents (CTAs) and self-assembly. Telechelic homopolymers of cyclooctene derivatives end-functionalized with hydrogen-bonding or metal-coordination sites are formed through the combination of ROMP with a corresponding functional CTA. These telechelic homopolymers are fashioned with a high control over molecular weight and without the need for post-polymerization procedures. The homopolymers undergo fast and efficient self-assembly with their complement homopolymer or small molecule analogue to form block-copolymer architectures. The block copolymers show equivalent association constants as their small molecule analogues described in the literature, regardless of size or nature of the complementary unit or the polymer side chain.

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Orthogonally Self‐Assembled Multifunctional Block Copolymers

Ambade

Burd

Higley

et al. 2009

Chemistry A European J

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We report the synthesis of telechelic poly(norbornene) and poly(cyclooctene) homopolymers by ring-opening metathesis polymerization (ROMP) and their subsequent functionalization and block copolymer formation based on noncovalent interactions. Whereas all the poly(norbornene)s contain either a metal complex or a hydrogen-bonding moiety along the polymer side-chains, together with a single hydrogen-bonding-based molecular recognition moiety at one terminal end of the polymer chain. These homopolymers allow for the formation of side-chain-functionalized AB and ABA block copolymers through self-assembly. The orthogonal natures of all side- and main-chain self-assembly events were demonstrated by (1)H NMR spectroscopy and isothermal titration calorimetry. The resulting fully functionalized block copolymers are the first copolymers combining both side- and main-chain self-assembly, thereby providing a high degree of control over copolymer functionalization and architecture and bringing synthetic materials one step closer to the dynamic self-assembly structures found in nature.

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Self‐Assembly with Block Copolymers through Metal Coordination of SCS–Pd^II Pincer Complexes and Pseudorotaxane Formation

South

Higley

Leung

et al. 2006

Chemistry A European J

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Poly(norbornene)-based block copolymers containing side chains of palladated pincer complexes/dibenzo[24]crown-8 or palladated pincer complexes/dibenzylammonium salts were synthesized. Noncovalent functionalization was accomplished with their corresponding recognition units through simple 1:1 addition with association constants (Ka) greater than 10(5) m(-1). The self-assembly processes were monitored by using both 1H NMR spectroscopy and isothermal titration calorimetry. In all cases, we found that the self-assembly of the recognition units along each polymer block does not preclude the self-assembly processes along the other block.

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Mary Nell Higley

A Modular Approach toward Block Copolymers

Orthogonally Self‐Assembled Multifunctional Block Copolymers

Self‐Assembly with Block Copolymers through Metal Coordination of SCS–Pd^II Pincer Complexes and Pseudorotaxane Formation

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Mary Nell Higley

A Modular Approach toward Block Copolymers

Orthogonally Self‐Assembled Multifunctional Block Copolymers

Self‐Assembly with Block Copolymers through Metal Coordination of SCS–PdII Pincer Complexes and Pseudorotaxane Formation

Contact Info

Product

Resources

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Self‐Assembly with Block Copolymers through Metal Coordination of SCS–Pd^II Pincer Complexes and Pseudorotaxane Formation