Horiba DeltaPro TCSPC Lifetime Fluorometer (LFS)

Horiba DeltaPro TCSPC Lifetime Fluorometer (LFS)

Model: Horiba DeltaPro TCSPC

Description: Lifetime fluorescence spectroscopy or time-resolved fluorescence spectroscopy or time-correlated single photon counting (TCSPC)

Function: This TCSPC LFS equipment provides precise fluorescence lifetime measurements for advanced photophysical and biochemical studies. It enables characterization of excited-state dynamics, energy transfer processes, and molecular interactions in materials, polymers, and biological samples. With picosecond time resolution and modular design, the system supports steady-state and time-resolved fluorescence analysis across a wide spectral range. This non-destructive technique is essential for research in nanotechnology, photonics, and life sciences, offering insights into molecular environments, quenching mechanisms, and dynamic processes at the nanoscale.

Features: 1) Capable of measuring luminescence lifetimes from picoseconds to 1 second. 2) NanoLED and DeltaDiode sources cover discrete emission wavelengths from 250 nm to the near-IR. 3) Can investigate the change in fluorescence over time of a sample when irradiated with UV, visible, or near-IR light. This decay in fluorescence can be measured over a wide time range: from picoseconds to milliseconds and beyond. 4) Filter-based wavelength selection 5) Fast, reliable USB 2.0 interface ensures trouble-free data-transfer to laptop or desktop PC 6) Comprehensive analysis software 7) Detector range is 185 to 650 nm (Optional upgrade to 850 and 900nm) 8) tandard sample holder with magnetic stirrer and temperature sensor. 9) Measure rotational correlation times using optional polarizers, 10) Full range of DeltaDiode, NanoLED and SpectraLED diode light sources from UV to near-IR available as an option 11) Operation up to 100MHz with DeltaDiode light sources 12) F-Link spectrometer interface for plug-n-play upgrades 13) Measurement modes: Lifetime – measure 25ps to 1s; Kinetic TCSPC – 1 to 10 000 decays measured sequentially in 1ms to 1min per decay; Anisotropy – reconvolution analysis to resolve shorter rotational correlation times

Contact:

• Unit: Integrated Nanosystems Development Institute
• Campus: Indianapolis
• Resource Type: Equipment
• Contact Name: Dipak Maity
• Contact Email: maityd@iu.edu