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Reversibly controlling preferential protein adsorption on bone implants by using an applied weak potential as a switch.

ABSTRACT: A facile method is needed to control the protein adsorption onto biomaterials, such as, bone implants. Herein we doped taurocholic acid (TCA), an amphiphilic biomolecule, into an array of 1D nano-architectured polypyrrole (NAPPy) on the implants. Doping TCA enabled the implant surface to show reversible wettability between 152° (superhydrophobic, switch-on state) and 55° (hydrophilic, switch-off state) in response to periodically switching two weak electrical potentials (+0.50 and -0.80?V as a switch-on and switch-off potential, respectively). The potential-switchable reversible wettability, arising from the potential-tunable orientation of the hydrophobic and hydrophilic face of TCA, led to potential-switchable preferential adsorption of proteins as well as cell adhesion and spreading. This potential-switchable strategy may open up a new avenue to control the biological activities on the implant surface.

SUBMITTER: Liao J 

PROVIDER: S-EPMC4294555 | biostudies-literature | 2014 Nov

REPOSITORIES: biostudies-literature

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Reversibly controlling preferential protein adsorption on bone implants by using an applied weak potential as a switch.

Liao Jingwen J   Zhu Ye Y   Zhou Zhengnan Z   Chen Junqi J   Tan Guoxin G   Ning Chengyun C   Mao Chuanbin C  

Angewandte Chemie (International ed. in English) 20141003 48

A facile method is needed to control the protein adsorption onto biomaterials, such as, bone implants. Herein we doped taurocholic acid (TCA), an amphiphilic biomolecule, into an array of 1D nano-architectured polypyrrole (NAPPy) on the implants. Doping TCA enabled the implant surface to show reversible wettability between 152° (superhydrophobic, switch-on state) and 55° (hydrophilic, switch-off state) in response to periodically switching two weak electrical potentials (+0.50 and -0.80 V as a s  ...[more]

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