ELSD-LT III - Features
Unique design achieves universal detection
Detects compounds with poor UV absorption
ELSDs can detect almost all compounds apart from volatile compounds. They detect irradiated light scattered by microparticles of target components that remain after the mobile phase has evaporated, meaning they can detect the compound which has the poor UV absorption or has that around short-wavelength where is strongly affected by the background absorption of the mobile phase.
Unlike refractive index detectors, ELSDs are compatible with gradient elution, which means they can be used to analyze multiple components simultaneously.
High sensitivity even for semi-volatile components
Featuring a unique nebulizer and drift tube design, the ELSD-LT III can efﬁciently evaporate samples even at low temperatures just by injecting a ﬁne mist of mobile phase into the drift tube. As a result, it can detect both non-volatile and semi-volatile substances.
It also includes a mechanism for focusing samples at the detection point with assist gas, achieving even higher sensitivity.
High sensitivity and a wide dynamic range
High-sensitivity analysis with a laser light source
A high-power laser source offers superior sensitivity not possible with previous ELSD models. The photometricallycontrolled laser ensures that the high sensitivity remains stable over long periods of operation.
The ELSD-LT III includes a unique function that extends the dynamic range to enable detection over a signal intensity range of up to 5 orders of magnitude without switching gain levels. This enables the analysis of samples containing particularly high- or low-concentration compounds which would normally be difficult to quantify with one gain level, reducing both the total analysis time and the amount of solvent needed.
Compact design with excellent usability
Installation space reduced significantly
The ELSD-LT III boasts a compact design with around 2/3 the height of the previous model, and can be installed on top of the LC unit. The width of the whole system is reduced, saving precious lab space.
Improved data reliability
Data reliability is improved by continuously recording nebulizer gas pressure and drift tube temperature. Data acquisition is begun after confirming that the drift tube has reached a specified temperature. Any unexpected drop in gas pressure is treated as an error, and the instrument automatically stops to protect the detector in case the gas supply is depleted.