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Redox‐Triggered Debonding of Mussel‐Inspired Pressure Sensitive Adhesives: Improving Efficiency Through Functional Design

Tilmann J. Neubert, Keven Walter, Carolin M. Schröter, Victoria Guglielmotti, Karsten Hinrichs, Stefan Reinicke, Andreas Taden, Kannan Balasubramanian, Hans G. Börner

2024Angewandte Chemie International Edition12 citationsDOIOpen Access PDF

Abstract

Debondable pressure-sensitive adhesives (PSAs) promise access to recyclability in microelectronics in the transition toward a circular economy. Two PSAs were synthesized from a tetravalent thiol star-polyester forming thiol-catechol-connectivities (TCC) with either the biorelated DiDopa-bisquinone (BY*Q) or the fossil-based bisquinone A (BQA). The PSAs enable debonding by oxidation of TCC-catechols to quinones. The extent of debonding efficiency depends on the interaction modes, which are determined by the chemical structure differences of both TCC-motifs. BY*Q-TCC-PSA debonds with exceptional loss of 99 % of its approx. 2 MPa shear strength in glass-on-glass junctions. For BQA-TCC-PSA, a debonding efficiency of only approx. 60 % was found, irrespective of its initial shear strength, which could be tuned up to approx. 7 MPa. The efficiency of debonding for BY*Q-TCC-PSA after TCC-oxidation is linked to the loss of synergistic interactions without strongly affecting the bulk glue properties, outperforming the purely catechol-based BQA-analogue.

Topics & Concepts

MusselAdhesiveRedoxPressure sensitiveComputer scienceBiochemical engineeringMaterials scienceNanotechnologyEngineeringFisheryMetallurgyBiologyLayer (electronics)Polymer Surface Interaction StudiesMarine Biology and Environmental ChemistryCorrosion Behavior and Inhibition
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