Replicated pattern formation and recognition properties of 2,4-dichlorophenoxyacetic acid-imprinted polymers using colloidal silica array molds

Gita Amiria Aya, Jin Chul Yang, Suck Won Hong, Jin Young Park

Research output: Contribution to journalArticlepeer-review

7 Scopus citations

Abstract

Surface imprinting is an effective and simple method to fabricate and retain imprinted templates and recognizable nanocavities after template extraction. The imprinted effects can be controlled depending on the surface morphological changes. In general, a planar film has a limited area compared to a structured film with relatively higher surface-to-volume (S/V) ratio (A/A0), leading to the conventional sensing response upon the functionality of monomers in a fixed chemical composition. To increase the limited sensing properties and develop simple fabrication of porous arrays on a large area, we herein demonstrate the 2,4-dichlorophenoxyacetic acid (2,4-D, herbicide)-imprinted porous thin film lithographically patterned using photopolymerization and silica colloidal array as a master mold, derived by a unidirectional rubbing method. The resonant frequency changes with respect to the adsorption of 2,4-D molecules on a template-extracted porous poly(MAA-co-EGDMA) (MIP) film in a 10-1 mMaqueous solution of 2,4-D for 1 h, and when compared to the planar MIP film, the higher sensing response (Δf = -283 ± 7 Hz ≈ 1543 ± 38 ng/cm2) appears on the porous MIP film due to the specific recognition toward the more accessible templated cavities of the structured porous array, indicating an imprinting effect (If) value of 3.5. In addition, a higher selectivity for 2,4-D was also displayed on the porous MIP film compared to other herbicides. From these results, it was revealed that these improved sensing properties can be determined from the effects of various parameters (template functionality, film structuring, hydroxyl groups of silica colloids, etc.).

Original languageEnglish
Article number1332
JournalPolymers
Volume11
Issue number8
DOIs
StatePublished - 1 Aug 2019

Keywords

  • Colloidal lithography
  • Colloidal silica
  • Herbicide
  • Molecular imprinting
  • Photopolymerization

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