Better Signal-to-Noise Ratios for Carbon Nanotube Spectra

Better Signal to Noise Ratios for Carbon Nanotube Data

Corrected emission spectra1 of carbon nanoparticles can provide excitation–emission matrices (EEMs) for a range of xcitation wavelengths. Acquisitions take only minutes (λexc = 500–800 nm at 1-nm intervals, λem = 830–1350 nm at ~1 nm per pixel). EEMs are compiled by HORIBA Jobin Yvon’s Nanosizer® software. A double convolution algorithm (U.S. pat. pending) in the software simultaneously computes
excitation and emission wavelength coordinate lineshapes for each species within minutes; contributions from all spectral bands in a region of interest are found.

Application Downloads

Related Products

Nanosizer® in Origin® Pro 8
More Nanosizer

For Single‐Walled Carbon Nanotube Excitation‐Emission Map Simulation and Analysis

Fluorolog
More Fluorolog

Steady State and Lifetime Modular Spectrofluorometer

Nanolog
More Nanolog

Steady State and Lifetime Nanotechnology Spectrofluorometer

REQUEST FOR INFORMATION

Do you have any questions or requests? Use this form to contact our specialists.