Rational design of smart nano-platforms based on antifouling-nanomaterials toward multifunctional bioanalysis

The ability to design nanoprobe devices with the capability of quantitative/qualitative operation in complex media will probably underpin the main upcoming progress in healthcare research and development. However, the biomolecules abundances in real samples can considerably alter the interface perfo...

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Veröffentlicht in:Advances in colloid and interface science 2022-04, Vol.302, p.102637-102637, Article 102637
Hauptverfasser: Mahmoudpour, Mansour, Jouyban, Abolghasem, Soleymani, Jafar, Rahimi, Mahdi
Format: Artikel
Sprache:eng
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Zusammenfassung:The ability to design nanoprobe devices with the capability of quantitative/qualitative operation in complex media will probably underpin the main upcoming progress in healthcare research and development. However, the biomolecules abundances in real samples can considerably alter the interface performance, where unwanted adsorption/adhesion can block signal response and significantly decrease the specificity of the assay. Herein, this review firstly offers a brief outline of several significances of fabricating high-sensitivity and low-background interfaces to adjust various targets' behaviors induced via bioactive molecules on the surface. Besides, some important strategies to resist non-specific protein adsorption and cell adhesion, followed by imperative categories of antifouling reagents utilized in the construction of high-performance solid sensory interfaces, are discussed. The next section specifically highlights the various nanocomposite probes based on antifouling-nanomaterials for electrode modification containing carbon nanomaterials, noble metal nanoparticles, magnetic nanoparticles, polymer, and silicon-based materials in terms of nanoparticles, rods, or porous materials through optical or chemical strategies. We specially outline those nanoprobes that are capable of identification in complex media or those using new constructions/methods. Finally, the necessity and requirements for future advances in this emerging field are also presented, followed by opportunities and challenges. [Display omitted] •Development of biosensing platforms using antifouling nanomaterials.•Antifouling nanomaterials with potential in clinical diagnosis.•Smart nanostructures based on biocompatible antifouling materials.
ISSN:0001-8686
1873-3727
DOI:10.1016/j.cis.2022.102637