"Nanoparticle Imaging with Hyperspectral Light Scatter"
Nanoparticle Imaging with Hyperspectral Light-Scatter maps the spatial distribution of Nanoparticles, Nanowires, and Nanorods in a heterogeneous field of view |
- Live cells and tissue: Hyperspectral nanoparticle imaging detects one or thousands of nanoparticles, wires or rods. Observe internalized particles within live or prepared samples over an unlimited field of view.
- NON DESTRUCTIVE! Benign illumination keeps live cells alive!
- No vacuum: Or special prep needed! Works with "wet" samples !
- Reveal the location: Diverse nano objects are mapped in color onto a grayscale image of the field of view - with perfect accuracy!
- Image, detect, analyze and characterize: Individual Nanoparticles, clumps, aggregates in a heterogeneous field of view
- Work in LOW magnification: Observe a huge field of view in magnifications ranging from 10 to 100X
- Spectral identification of metals: Reveal the location of any material, especially metals, as a function of its spectrum
- Reveal size, shape and proximity: Spectral features often correlate with size shape and proximity especially when surface plasmon resonance (SPR) can be induced
- Low cost alternative: To SEM and TEM for many applications!
- The PARISS® Analytical Hyperspectral Imaging system: is a simple microscope accessory ideal for nanoparticle imaging
- Fluorescence: PARISS easily "switches" between light scatter and fluorescence
|
|
 |
|
|
|
|
Figure 1: Nanoparticle Imaging:
Bio conjugated Au nanoparticles internalized
within living cells in dark field |
Figure 2: Gold/Silver nanowire reveals subtle differences indicated by pseudo-color spectral classification codes |
Click here To view an
interactive nanoparticle imaging presentation
It is best if you run the presentation full screen , greater than 800x600 |
Nanoparticle Imaging with the PARISS® Hyperspectral
light scatter
system is an effective means to obtain
high contrast and high spectral resolution
| |
|
|
©
1990-2008 LightForm, Inc all rights reserved |
|
Nanoparticle imaging with hyperspectral imaging |