摘要:
According to an example, an apparatus for performing spectroscopy includes an elongated substrate having a shape and size to be inserted into a specimen, wherein the elongated substrate has a first end and a second end. The apparatus also includes a plurality of surface-enhanced spectroscopy (SES) elements positioned on an exterior surface of the elongated substrate at a location between the first end and the second end of the elongated substrate.
摘要:
Optical readers are disclosed in examples herein. An example optical reader including a light source to emit a light beam; and a spot pattern generator to receive the light beam and to generate a two-dimensional spot array from the light beam, the two-dimensional spot array to be directed toward a substrate having nanostructures, the two-dimensional spot array to be sensed to detect a presence or an absence of a substance of interest on the substrate.
摘要:
The present disclosure is drawn to a device for monitoring and controlling live cells and associated methods. In an example, the device can include a plurality of elongated nanostructures affixed to a substrate. The elongated nanostructures can each have an attachment end and a free end opposite the attachment end. The free end includes a metal and the attachment end is affixed to the substrate. The device can further include a functionalization layer that is coated on the free end of at least a portion of the plurality of elongated nanostructures. The functionalization layer can be formulated to retain live cells, and the device can be configured to be used in conjunction with a detector, such as a Raman spectrometer, in order to monitor growth of live cells.
摘要:
A strain gauge or other device may include a deformable medium and discrete plasmon supporting structures arranged to create one or more plasmon resonances that change with deformation of the medium and provide the device with an optical characteristic that indicates the deformation of the medium.
摘要:
The present disclosure is drawn to a device for monitoring and controlling live cells and associated methods. In an example, the device can include a plurality of elongated nanostructures affixed to a substrate. The elongated nanostructures can each have an attachment end and a free end opposite the attachment end. The free end includes a metal and the attachment end is affixed to the substrate. The device can further include a functionalization layer that is coated on the free end of at least a portion of the plurality of elongated nanostructures. The functionalization layer can be formulated to retain live cells, and the device can be configured to be used in conjunction with a detector, such as a Raman spectrometer, in order to monitor growth of live cells.
摘要:
A system includes an illumination source, a detector and a processor. The detector acquires spectral measurements of a sample under test under at least one varying condition. The processor processes the measurements to generate at least one spectral representation that includes Raman spectra and at least one spectral representation that includes non-Raman spectra.
摘要:
A system includes an illumination source, a detector and a processor. The detector acquires spectral measurements of a sample under test under at least one varying condition. The processor processes the measurements to generate at least one spectral representation that includes Raman spectra and at least one spectral representation that includes non-Raman spectra.
摘要:
The present disclosure is drawn to a device for monitoring and controlling live cells and associated methods. In an example, the device can include a plurality of elongated nanostructures affixed to a substrate. The elongated nanostructures can each have an attachment end and a free end opposite the attachment end. The free end includes a metal and the attachment end is affixed to the substrate. The device can further include a functionalization layer that is coated on the free end of at least a portion of the plurality of elongated nanostructures. The functionalization layer can be formulated to retain live cells, and the device can be configured to be used in conjunction with a detector, such as a Raman spectrometer, in order to monitor growth of live cells.
摘要:
Scattering spectroscopy employs a scattering spectroscopy enhancing structure having a hotspot on a first side of a substrate and a nanopore in the substrate, where the nanopore is aligned with the hotspot.