© 2014 American Chemical Society. We describe a manufacturable and scalable method for fabrication of multiscale wrinkled silica structures on shrink-wrap film to enhance fluorescence signals in DNA fluorescence microarrays. We are able to enhance the fluorescence signal of hybridized DNA by more than 120 fold relative to a planar glass slide. Notably, our substrate has improved detection sensitivity relative to planar glass slide. Furthermore, this is accompanied by a 30-45 times improvement in…
Read more© 2014 American Chemical Society. We describe a manufacturable and scalable method for fabrication of multiscale wrinkled silica structures on shrink-wrap film to enhance fluorescence signals in DNA fluorescence microarrays. We are able to enhance the fluorescence signal of hybridized DNA by more than 120 fold relative to a planar glass slide. Notably, our substrate has improved detection sensitivity relative to planar glass slide. Furthermore, this is accompanied by a 30-45 times improvement in the signal-tonoise ratio. Unlike metal enhanced fluorescence based enhancements, this is a far-field and uniform effect based on surface concentration and photophysical effects from the nano- to microscale SiO 2 structures. Notably, the photophysical effects contribute an almost 2.5 fold enhancement over the concentration effects alone. Therefore, this simple and robust method offers an efficient technique to enhance the detection capabilities of fluorescence based DNA microarrays.
