Abstract:
A surface-enhanced Raman spectroscopic (SERS) system for detecting a biomolecule. The system includes a substrate, an array of nanoparticles disposed on the substrate, each being partially embedded in the substrate and having a non-embedded surface, and a linking agent disposed on the non-embedded surface of each of the nanoparticles. The array of nanoparticles has a uniform interparticle gap of 1-50 nm and the linking agent is capable of binding to the biomolecule.
Abstract:
A surface-enhanced Raman spectroscopic (SERS) system for detecting a biomolecule. The system includes a substrate, an array of nanoparticles disposed on the substrate, each being partially embedded in the substrate and having a non-embedded surface, and a linking agent disposed on the non-embedded surface of each of the nanoparticles. The array of nanoparticles has a uniform interparticle gap of 1-50 nm and the linking agent is capable of binding to the biomolecule.
Abstract:
A stent for coronary vessels, having a surface of multilayer immobilized structures, includes a stent body and a number of polyelectrolyte complex (PEC) layers stacking and being immobilized on the surface of the stent body, in which the PEC layer is formed of a polymer layer and an anticoagulant layer. The coronary stent is capable of effectively improving the hemocompatibility longevity over conventional stent using surface encapsulation of an anticoagulant layer for hemocompatibility improvement. Furthermore, the coronary stent can be use as a drug-eluting coronary stent, thus allowing for the time-releasing of drugs, and further preventing the thickening of vascular smooth muscle cells for causing vascular thrombosis.