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Hydration behaviors of nonfouling zwitterionic materials

Pranab Sarker, Tieyi Lu, Di Liu, Guangyao Wu, Hanning Chen, Md Symon Jahan Sajib, Shaoyi Jiang, Zhan Chen, Tao Wei

2023Chemical Science113 citationsDOIOpen Access PDF

Abstract

-oxide (TMAO) and carboxybetaines of different charge-separation distances, to understand their fouling-resistant mechanism and provide a design principle for improved performance. Our study reveals that the interplay among hydrogen bonding, net charge, and dipole moment is crucial to the fouling-resistant capabilities of zwitterionic materials. Shortening of the zwitterionic spacing strengthens hydrogen bonding with water against biomolecule attachment due to the increased electrostatic and induction interactions, charge transfer, and improved structural stability. Moreover, the shortened charge separation reduces the dipole moment of zwitterionic materials with an intrinsic near-neutral net charge, decreasing their electrostatic and dipole-dipole interactions with biofoulers, and increasing their resistance to fouling. Compared to carboxybetaine compounds, TMAO has the shortest zwitterionic spacing and exhibits the strongest hydrogen bonding, the smallest net charge, and the minimum dipole moment, making it an excellent nonfouling material.

Topics & Concepts

Chemical physicsDipoleHydrogen bondFoulingElectrostaticsBiofoulingChemistryMoment (physics)BiomoleculeStatic electricityMolecular dynamicsPartial chargeCharge (physics)Surface chargeMoleculeComputational chemistryNanotechnologyChemical engineeringMaterials sciencePhysical chemistryOrganic chemistryMembraneElectrical engineeringPhysicsQuantum mechanicsEngineeringBiochemistryClassical mechanicsPolymer Surface Interaction StudiesMarine Biology and Environmental ChemistryCalcium Carbonate Crystallization and Inhibition