Shiho Tanizaki scite author profile

Shiho Tanizaki

4Publications

16Citation Statements Received

146Citation Statements Given

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142

Affiliations

Tokyo Institute of Technology, Himeji University

Publications

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Novel Bio‐Based Catechol‐Containing Copolymers by Precision Polymerization of Caffeic Acid‐Derived Styrenes Using Ester Protection

Tanizaki

Kubo

Satoh

2021

Macro Chemistry & Physics

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In this study, ester-protected vinyl catechols (VCs) derived from caffeic acid are synthesized to design novel functional copolymers. The protected VCs are polymerized or copolymerized with a series of common vinyl monomers via reversible addition-fragmentation chain transfer (RAFT) polymerization using cumyl dithiobenzoate as the RAFT agent. The RAFT polymerizations of these protected VCs have been successfully proceeded to afford well-defined polymers with relatively narrow molecular weight distributions. The deprotection of catechol ester proceeded quantitatively and selectively by primary amine with the formation of amide under a mild condition. In particular, the random/statistical and block copolymerization led to catechol-containing copolymers with well-defined structures.

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Adhesion Promoting Copolymer of Acetate-Protected Vinyl Catechol with Glycidyl Methacrylate: Unraveling Deprotection, Adsorption, and Adhesion Behaviors on Metal Substrates

Chu

Zhang

Kubo

et al. 2022

ACS Appl. Polym. Mater.

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Epoxy resins are one of the important and intensively used thermosetting adhesives in the automotive and electronic industries. Understanding and improving the interfacial interactions between epoxy adhesives and metal adherends are essential and urgent issues that need to be overcome to expand the scope of adhesive applications. In this study, a bioinspired acetate-protected vinyl catechol (Ac2VCa) monomer derived from natural caffeic acid was copolymerized with glycidyl methacrylate (GMA) to prepare a catechol-containing polymerPGMA-co-P(Ac2VCa)for the enhancement of interfacial adhesion. The deprotection of acetate protecting groups using a diamine was validated, allowing the achievement of the deprotection and adsorption of the PGMA-co-P(Ac2VCa) promoter in one processing procedure for its direct usage as the primer or additive. With the incorporation of catechol moieties, the strengthened interfacial interactions can effectively improve the lap shear strength of epoxy-adhesive-bonded metallic joints.

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Novel Bio‐Based Catechol‐Containing Copolymers by Precision Polymerization of Caffeic Acid‐Derived Styrenes Using Ester Protection

Tanizaki¹,

Kubo²,

Satoh³

2022

Macro Chemistry & Physics

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ChemInform Abstract: Synthesis and Complexation Thermodynamics of Aza‐16‐crown‐5‐lariat.

et al. 1993

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Shiho Tanizaki

Novel Bio‐Based Catechol‐Containing Copolymers by Precision Polymerization of Caffeic Acid‐Derived Styrenes Using Ester Protection

Adhesion Promoting Copolymer of Acetate-Protected Vinyl Catechol with Glycidyl Methacrylate: Unraveling Deprotection, Adsorption, and Adhesion Behaviors on Metal Substrates

Novel Bio‐Based Catechol‐Containing Copolymers by Precision Polymerization of Caffeic Acid‐Derived Styrenes Using Ester Protection

ChemInform Abstract: Synthesis and Complexation Thermodynamics of Aza‐16‐crown‐5‐lariat.

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