Molecularly imprinted polymer diffraction grating as label-free optical bio(mimetic)sensor

Micropatterned molecularly imprinted polymer (MIP) transmissive 2D diffraction gratings (DGs) are fabricated and evaluated as label-free antibiotic bio(mimetic)sensors. Polymeric gratings are prepared by using microtransfer molding based on SiO 2/Si molds. The morphology of the MIP gratings is studi...

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Published inBiosensors & bioelectronics Vol. 26; no. 5; pp. 2801 - 2804
Main Authors Barrios, C.A., Zhenhe, C., Navarro-Villoslada, F., López-Romero, D., Moreno-Bondi, M.C.
Format Journal Article
LanguageEnglish
Published Kidlington Elsevier B.V 15.01.2011
Elsevier
Subjects
Anti-Bacterial Agents - analysis
Biological and medical sciences
Biomimetic Materials
Biosensing Techniques - instrumentation
Biotechnology
Diffraction grating
Equipment Design
Equipment Failure Analysis
Fundamental and applied biological sciences. Psychology
Label-free sensing
Molecular Probe Techniques
Molecularly imprinted polymer
Optical sensor
Refractometry - instrumentation
Staining and Labeling
Diffraction grating
Optical sensor
Label-free sensing
Molecularly imprinted polymer
Diffraction
Polymer
Molecular imprinting
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Abstract Micropatterned molecularly imprinted polymer (MIP) transmissive 2D diffraction gratings (DGs) are fabricated and evaluated as label-free antibiotic bio(mimetic)sensors. Polymeric gratings are prepared by using microtransfer molding based on SiO 2/Si molds. The morphology of the MIP gratings is studied by optical and atomic force microscopes. MIP 2D-DGs exhibit 2D optical diffraction patterns, and measurement of changes in diffraction efficiency is used as sensor response. The refractive index of the micropatterned MIP material was estimated, via solvent index matching experiments, to be 1.486. Immersion of a MIP 2D-DG in different solutions of target-antibiotic enrofloxacin leads to significant variations in diffraction efficiency, demonstrating target-molecule detection. On the other hand, no significant response is observed for both control experiments: MIP grating exposed to a non-retained analyte and an equivalent non-imprinted polymer grating exposed to the target analyte, showing highly specific antibiotic label-free optical recognition.
AbstractList Micropatterned molecularly imprinted polymer (MIP) transmissive 2D diffraction gratings (DGs) are fabricated and evaluated as label-free antibiotic bio(mimetic)sensors. Polymeric gratings are prepared by using microtransfer molding based on SiO(2)/Si molds. The morphology of the MIP gratings is studied by optical and atomic force microscopes. MIP 2D-DGs exhibit 2D optical diffraction patterns, and measurement of changes in diffraction efficiency is used as sensor response. The refractive index of the micropatterned MIP material was estimated, via solvent index matching experiments, to be 1.486. Immersion of a MIP 2D-DG in different solutions of target-antibiotic enrofloxacin leads to significant variations in diffraction efficiency, demonstrating target-molecule detection. On the other hand, no significant response is observed for both control experiments: MIP grating exposed to a non-retained analyte and an equivalent non-imprinted polymer grating exposed to the target analyte, showing highly specific antibiotic label-free optical recognition.
Micropatterned molecularly imprinted polymer (MIP) transmissive 2D diffraction gratings (DGs) are fabricated and evaluated as label-free antibiotic bio(mimetic)sensors. Polymeric gratings are prepared by using microtransfer molding based on SiO 2/Si molds. The morphology of the MIP gratings is studied by optical and atomic force microscopes. MIP 2D-DGs exhibit 2D optical diffraction patterns, and measurement of changes in diffraction efficiency is used as sensor response. The refractive index of the micropatterned MIP material was estimated, via solvent index matching experiments, to be 1.486. Immersion of a MIP 2D-DG in different solutions of target-antibiotic enrofloxacin leads to significant variations in diffraction efficiency, demonstrating target-molecule detection. On the other hand, no significant response is observed for both control experiments: MIP grating exposed to a non-retained analyte and an equivalent non-imprinted polymer grating exposed to the target analyte, showing highly specific antibiotic label-free optical recognition.
Micropatterned molecularly imprinted polymer (MIP) transmissive 2D diffraction gratings (DGs) are fabricated and evaluated as label-free antibiotic bio(mimetic)sensors. Polymeric gratings are prepared by using microtransfer molding based on SiO2/Si molds. The morphology of the MIP gratings is studied by optical and atomic force microscopes. MIP 2D-DGs exhibit 2D optical diffraction patterns, and measurement of changes in diffraction efficiency is used as sensor response. The refractive index of the micropatterned MIP material was estimated, via solvent index matching experiments, to be 1.486. Immersion of a MIP 2D-DG in different solutions of target-antibiotic enrofloxacin leads to significant variations in diffraction efficiency, demonstrating target-molecule detection. On the other hand, no significant response is observed for both control experiments: MIP grating exposed to a non-retained analyte and an equivalent non-imprinted polymer grating exposed to the target analyte, showing highly specific antibiotic label-free optical recognition.
Author Barrios, C.A.
López-Romero, D.
Moreno-Bondi, M.C.
Zhenhe, C.
Navarro-Villoslada, F.
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  email: mcmbondi@quim.ucm.es
  organization: Optochemical Sensors and Applied Photochemistry Group (GSOLFA), Dpt. Analytical Chemistry, Faculty of Chemistry, Universidad Complutense, 28040 Madrid, Spain
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Issue 5
Keywords Diffraction grating
Optical sensor
Label-free sensing
Molecularly imprinted polymer
Diffraction
Polymer
Molecular imprinting
Language English
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Snippet Micropatterned molecularly imprinted polymer (MIP) transmissive 2D diffraction gratings (DGs) are fabricated and evaluated as label-free antibiotic...
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SubjectTerms Anti-Bacterial Agents - analysis
Biological and medical sciences
Biomimetic Materials
Biosensing Techniques - instrumentation
Biotechnology
Diffraction grating
Equipment Design
Equipment Failure Analysis
Fundamental and applied biological sciences. Psychology
Label-free sensing
Molecular Probe Techniques
Molecularly imprinted polymer
Optical sensor
Refractometry - instrumentation
Staining and Labeling
Title Molecularly imprinted polymer diffraction grating as label-free optical bio(mimetic)sensor
URI https://dx.doi.org/10.1016/j.bios.2010.11.009
https://www.ncbi.nlm.nih.gov/pubmed/21131191
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