Better Signal-to-Noise Ratios for Carbon Nanotube Spectra

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

Better Signal-to-Noise Ratios for Carbon Nanotube Spectra
DescriptionBetter Signal-to-Noise Ratios for Carbon Nanotube Spectra
Size 1.41 MB
FiletypePDF

Related Products

Nanosizer® in Origin® Pro 8
MoreNanosizer
For Single‐Walled Carbon Nanotube Excitation‐Emission Map Simulation and Analysis
MoreFluorescence – Steady State and Lifetime Modular Spectrofluorometer – Fluorolog
Most recognized, sensitive and versatile modular spectrofluorometer on the market with TCSPC lifetimes and interchangeable accessories
MoreFluorescence – Steady State and Lifetime Nanotechnology Spectrofluorometer – Nanolog
Our modular Nanolog Spectrofluorometer is specifically designed for research in nanotechnology and namomaterials
MoreFluorescence – Water Treatment Plant Analyzer - Aqualog
A better, faster and economical method for monitoring organics

REQUEST FOR INFORMATION

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