The need of cheap and easy to use biosensors for rapid diagnostics is a crucial challenge in medicine: indeed,devices must offer multiple properties such as fast response, high sensitivity, reduced need of sample processing,etc. In this respect, optical biosensors remain a promising class of biodevices. Here we present an extensiveinvestigation of the surface properties of silver-coated zinc oxide disordered nanostructures as efficient biosensingplatform to detect complex organic profiles via Raman spectroscopy. In particular, we combine lowtemperature and large area manufacturing techniques to offer a low-cost tool for rapid detection of untreatedorganic samples like human blood avoiding the usage of expensive manufacturing methods to grow orderednanostructures and providing safer materials respect the implementation of metal nanoparticles thus opening thepossibility to adopt these devices also in vivo. After an accurate study using rhodamine, comparing Ramanresponse for as deposited and lasered surfaces, different metal layers (gold vs silver) and different metal thicknesses(from 25 to 150 nm), we successfully validate the performance of the silver-coated lasered platform onuntreated human blood obtaining high resolved response and identifying several organic signatures attributableto hypoxanthine, glucose and lipoprotein.
Silver-coated ZnO disordered nanostructures as low-cost and label-free Raman biosensing platform for fast detection of complex organic profiles
L Maiolo;F Maita;JI Del Rio De Vicente;I Lucarini;A Liscio;G Petrone;V Mussi
2023
Abstract
The need of cheap and easy to use biosensors for rapid diagnostics is a crucial challenge in medicine: indeed,devices must offer multiple properties such as fast response, high sensitivity, reduced need of sample processing,etc. In this respect, optical biosensors remain a promising class of biodevices. Here we present an extensiveinvestigation of the surface properties of silver-coated zinc oxide disordered nanostructures as efficient biosensingplatform to detect complex organic profiles via Raman spectroscopy. In particular, we combine lowtemperature and large area manufacturing techniques to offer a low-cost tool for rapid detection of untreatedorganic samples like human blood avoiding the usage of expensive manufacturing methods to grow orderednanostructures and providing safer materials respect the implementation of metal nanoparticles thus opening thepossibility to adopt these devices also in vivo. After an accurate study using rhodamine, comparing Ramanresponse for as deposited and lasered surfaces, different metal layers (gold vs silver) and different metal thicknesses(from 25 to 150 nm), we successfully validate the performance of the silver-coated lasered platform onuntreated human blood obtaining high resolved response and identifying several organic signatures attributableto hypoxanthine, glucose and lipoprotein.File | Dimensione | Formato | |
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