Observation of Molecular Diffusion in Polyelectrolyte-Wrapped SERS Nanoprobes

The popularity of nanotechnology-based sensing technologies has rapidly expanded within the past decade. Surface-enhanced Raman spectroscopy (SERS) is one such technique capable of chemically specific and highly sensitive measurements. The careful preparation of SERS-active nanoprobes is immensely...

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Veröffentlicht in:	Langmuir 2014-07, Vol.30 (29), p.8931-8937
Hauptverfasser:	DeVetter, Brent M, Sivapalan, Sean T, Patel, Dwani D, Schulmerich, Matthew V, Murphy, Catherine J, Bhargava, Rohit
Format:	Artikel
Sprache:	eng
Schlagworte:	Acrylic Resins - chemistry Biosensing Techniques - methods Cross-Linking Reagents - chemistry Diffusion Drug Compounding Glutaral - chemistry Gold - chemistry Metal Nanoparticles - chemistry Methylene Blue - chemistry Nanospheres - chemistry Nanotechnology - methods Polyamines - chemistry Spectrum Analysis, Raman - methods Static Electricity Sulfhydryl Reagents - chemistry Surface Properties
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container_title	Langmuir
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creator	DeVetter, Brent M Sivapalan, Sean T Patel, Dwani D Schulmerich, Matthew V Murphy, Catherine J Bhargava, Rohit
description	The popularity of nanotechnology-based sensing technologies has rapidly expanded within the past decade. Surface-enhanced Raman spectroscopy (SERS) is one such technique capable of chemically specific and highly sensitive measurements. The careful preparation of SERS-active nanoprobes is immensely vital for biological applications where nanoprobes are exposed to harsh ionic and protein rich microenvironments. Encapsulation of optical reporter molecules via layer-by-layer (LbL) polyelectrolyte wrapping is an emerging technique that also permits facile modification of surface chemistry and charge. LbL wrapping can be performed within a few hours and does not require the use of organic solvents or hazardous silanes. Nonetheless, the stability of its products requires further characterization and analysis. In this study, Raman-active methylene blue molecules were electrostatically encapsulated within alternating layers of cationic and anionic polyelectrolytes surrounding gold nanospheres. We observed molecular diffusion of methylene blue through polyelectrolyte layers by monitoring the change in SERS intensity over a period of more than 5 weeks. To minimize diffusion and improve the long-term storage stability of our nanoprobes, two additional nanoprobe preparation techniques were performed: thiol coating and cross-linking of the outer polyelectrolyte layer. In both cases, molecular diffusion is significantly diminished.
doi_str_mv	10.1021/la501944k
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We observed molecular diffusion of methylene blue through polyelectrolyte layers by monitoring the change in SERS intensity over a period of more than 5 weeks. To minimize diffusion and improve the long-term storage stability of our nanoprobes, two additional nanoprobe preparation techniques were performed: thiol coating and cross-linking of the outer polyelectrolyte layer. 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subjects	Acrylic Resins - chemistry Biosensing Techniques - methods Cross-Linking Reagents - chemistry Diffusion Drug Compounding Glutaral - chemistry Gold - chemistry Metal Nanoparticles - chemistry Methylene Blue - chemistry Nanospheres - chemistry Nanotechnology - methods Polyamines - chemistry Spectrum Analysis, Raman - methods Static Electricity Sulfhydryl Reagents - chemistry Surface Properties
title	Observation of Molecular Diffusion in Polyelectrolyte-Wrapped SERS Nanoprobes
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