Ruei-Hung Yuan scite author profile

A general concept is introduced featuring an ideal multifunctional surface that can avoid fouling problems while allowing the installed groups to perform with the high efficacy and accuracy necessary for delivering cascading and spontaneous biological activities. The idea is realized by using a direct synthesis of a multicomponent coating containing the two functionalities of 4‐methyl‐propiolate and 4‐N‐maleimidomethyl that is achieved via chemical vapor deposition copolymerization on various substrates. The novel coating can simultaneously perform specific bio‐orthogonal reactions, including the azide‐alkyne click reaction and a thiol‐maleimide coupling reaction. In the study, azide‐terminated polyethylene glycols are first immobilized on the methyl propiolate groups to impart an antifouling property, while bioactivity is enabled by tethering biotinylated thiols or Cys‐Arg‐Glu‐Asp‐Val (CREDV) peptides on the maleimide groups. The induced antifouling properties and bioactivities are confirmed by quartz crystal microbalance and cell culture studies. Finally, precisely manipulated endothelial cells, namely, human umbilical vein endothelial cells and bovine arterial endothelial cells, are observed on a complex stent substrate and on confined areas of the poly(methyl methacrylate) substrates.

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Vapor-based tri-functional coatings

Chen

Lin

Tsai

et al. 2013

Chem. Commun.

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A facile approach toward protein-resistant biointerfaces based on photodefinable poly-p-xylylene coating

Yuan

Chen

et al. 2014

Colloids and Surfaces B: Biointerfaces

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Multifunctional Surface Modification: Facile and Flexible Reactivity toward a Precisely Controlled Biointerface

Yuan

Tung

et al. 2016

Macromolecular Bioscience

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A multicomponent functional polymer is synthesized to support specific reactivity for successful conjugation with the vast array of functionality present in biological systems and the flexibility to conjugate biomolecules without requiring additional modification to install a terminal functional group. The multifunctional surface is realized using a novel coating composed of distinct N-hydroxysuccinimide (NHS) ester and benzoyl functionalities, which can provide accessibility to both the NHS ester-amine coupling reaction and the photochemically induced benzophenone crosslinking reaction, respectively. In addition, the multifunctional polymer is fabricated and transformed to form nanoscale colloids through the solvent displacement of a water/DMF system due to solubility characteristics of the resulting polymer with high polarity. A facile and efficient fabrication approach using the multifunctional nanocolloid is thus demonstrated to create a drug carrier by installing paclitaxel and folic acid for targeted cancer therapy.

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Fabrication of multipotent poly-para-xylylene particles in controlled nanoscopic dimensions

Yuan

Sun

et al. 2016

Colloids and Surfaces B: Biointerfaces

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Ruei-Hung Yuan

Vapor‐Based Multicomponent Coatings for Antifouling and Biofunctional Synergic Modifications

Vapor-based tri-functional coatings

A facile approach toward protein-resistant biointerfaces based on photodefinable poly-p-xylylene coating

Multifunctional Surface Modification: Facile and Flexible Reactivity toward a Precisely Controlled Biointerface

Fabrication of multipotent poly-para-xylylene particles in controlled nanoscopic dimensions

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