Titlebook: Nanoplasmonic Sensors; Alexandre Dmitriev Book 2012 Springer Science+Business Media New York 2012 Biosensing.Chemosensing.Functional Mater

使厭惡

Laser Manipulation of Plasmonic Nanoparticles for SERS and Sensingul method for manipulation and control of plasmonic metal nanostructures. Here, we review our recent results in this area with a focus on the interaction between nanoparticles confined in an optical trap and applications in surface-enhanced Raman scattering spectroscopy.

rectum

Future Directions: Nanoplasmonic Sensing Tomorrowge number of areas, both in research settings and in prototype or even consumer devices. The research interest to the field is also strong—just recently a series of articles appeared that overviewed the current development of the research in nanoplasmonic sensors [1–4]. So, where do we go from here?

清楚說(shuō)話

infantile

Functional Nanoimprinted Plasmonic Crystals for Chemical Sensing and Imagingonolayer levels using a common optical microscope, and Raman signal enhancement using a single common device framework. These plasmonic crystals have the potential to overcome many of the technological limitations that have limited the widespread application and integration of surface-enhanced analytical techniques.

輕浮思想

Explosive

Nano-Scale Electrical Transducers of Surface Plasmons for Integrated Biosensing guided plasmons in metal-insulator-metal (MIM) waveguides. We will discuss these different devices, including optical/electrical characterization, the comparison with simulations, and their relevance for integrated biosensors.

得意人

Presbycusis

https://doi.org/10.1007/978-1-4614-3933-2Biosensing; Chemosensing; Functional Materials; LSPR; Nanoplasmonic; Nanoplasmons; Plasmonic

critique

sinoatrial-node

Nanoplasmonic Sensors978-1-4614-3933-2Series ISSN 2196-4475 Series E-ISSN 2196-4483