 The perfect instrument for your research
The NanoLog™ series of spectrofluorometers are specifically designed
for research in nanotechnology and the frontiers of nanomaterials.
Based on the world-wide proven technology of the Fluorolog®,
the NanoLog™ detects fluorescence in the near-IR from 800 to 1700
nm (optional multi-channel detection to 2 µm, single-channel
detection to 3 µm), with visible and UV options possible. With
the NanoLog™ comes specially designed software ideal for classifying
SWNTs, performing energytransfer calculations, and saving custom
routines and instrument layouts. A complete spectrum can be scanned
as fast as a few milliseconds, and a full excitation-emission matrix
scan can be taken in as little as seconds.
Perfect for quantum dots, too!
Benefits
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Rapid excitation-emission matrices in seconds
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High sensitivity in near-IR with InGaAs array
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High resolution
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Eases qualification and quantification of species
and families of SWNTs
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Compatible with variety of detectors from UV
to near-IR:
Photomultiplier tube for highest sensitivity
and timeresolved analysis
Popular, cost-effective single-element InGaAs
Multi-element CCD array for fast data-acquisition
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Resolve mixtures of quantum dots simultaneously
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Perform energy-transfer experiments
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Modular design for your ideal experimental
setup
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450 W intense broadband cw xenon lamp for bright excitation from
UV to near-IR
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Full excitation-emission matrices in seconds
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IGA-3000
InGaAs array detectors: 800–1700 nm; 256 × 1, 512 × 1,
and 1024 × 1 pixel formats as small as 25 µm
pitch; noise as low as 650 e–rms with liquid-nitrogen
cooling for best signal-to-noise
ratio; optional thermoelectric cooling; extended
range option (1.1– 2.2 µm)
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TRIAX 320 emission spectrograph: focal length
= 320 mm; f/4.1; dispersion = 2.64 nm/mm; resolution
= 0.2
nm; software-controlled
triple-grating turret
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Solid-state
near-IR detectors, photomultiplier tubes from UV to near-IR,
time-correlated
single-photon counting
lifetime measurement
(100 ps to 1 ms, UV to near-IR), phosphorimeter
(1 µs to > 10 s, UV to near-IR),
and frequency-domain lifetime measurement
(10 ps to 10 µs, UV to near-IR) are
also available
Schematic
Schematic of the NanoLog, showing the optical path
from source through sample to detectors. |
