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Location: Products >> Fluorescence >> Nanotechnology >> NanoLog
Nanotech with the Nanolog
NanoLog series of spectrofluorometersThe perfect instrument for your research

The NanoLogT 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 NanoLogT 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 NanoLogT 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

  • Rapid excitation-emission matrices in seconds
  • High sensitivity in near-IR with InGaAs array
  • High resolution
  • Eases qualification and quantification of species and families of SWNTs
  • 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
  • Resolve mixtures of quantum dots simultaneously
  • Perform energy-transfer experiments
  • Modular design for your ideal experimental setup

Specifications

  • 450 W intense broadband cw xenon lamp for bright excitation from UV to near-IR
  • Full excitation-emission matrices in seconds
  • 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)
  • 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
  • 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.

Schematic of the NanoLog, showing the optical path from source through sample to detectors.

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