Plasmon Modulated Upconversion Biosensors

Abstract: Over the past two decades, lanthanide-based upconversion nanoparticles (UCNPs) have been fascinating scientists due to their ability to offer unprecedented prospects to upconvert tissue-penetrating near-infrared light into color-tailorable optical illumination inside biological matter. In particular, luminescent behavior UCNPs have been widely utilized for background-free biorecognition and biosensing. Currently, a paramount challenge exists on how to maximize NIR light harvesting and upconversion efficiencies… Show more

“…As a result, they can degrade or lose their activity over time. 48,49 The Fe-gallic acid doped in epoxy cellulose polymer sensor is a new type of biosensor that has been shown to be more stable than traditional biosensors. This is because the Fe-gallic acid doped in epoxy cellulose polymer provides a protective environment for the biomolecules.…”

Novel sensor for the determination of CA 15-3 in serum of breast cancer patients based on Fe–gallic acid complex doped in modified cellulose polymer thin films

“…As a result, they can degrade or lose their activity over time. 48,49 The Fe-gallic acid doped in epoxy cellulose polymer sensor is a new type of biosensor that has been shown to be more stable than traditional biosensors. This is because the Fe-gallic acid doped in epoxy cellulose polymer provides a protective environment for the biomolecules.…”

Novel sensor for the determination of CA 15-3 in serum of breast cancer patients based on Fe–gallic acid complex doped in modified cellulose polymer thin films

“…[ 14 , 15 , 16 , 17 ] However, the use of modest skin‐safe NIR laser doses in PDT elicits the susceptibility of UCNPs to luminescence quenching. [ 18 ] Moreover, upconversion quenching has multiple origin sources, thereby greatly obscuring a straightforward path toward an ultimate solution. [ 19 ] Over the past decades, strict limits on the composition of lanthanide dopants in upconversion nanoformulations have been imposed to suppress the concentrated quenching.…”

Cold‐Responsive Hyaluronated Upconversion Nanoplatform for Transdermal Cryo‐Photodynamic Cancer Therapy

Quenching of Upconversion Nanoparticle Fluorescence for Tetracyclines Detection