High performance fixed 2nm spectral bandwidth
Low stray light 0.05%T
Wavelength accuracy +1nm
Holographic blazed grating 1200 lines/mm
Local control software for photometric fixed wavelength measurement
Easily upgraded to include quantitative analysis, multi wavelength spectrum & kinetics
Built in cell holder storage
Robust modular design with a small footprint
Can be used with UV Win Software (optional). CFR21 Part 11 Software Options are available

A split beam system operating within a wavelength range of 190-1100nm, offer Wavelength Reproducibilit ≤0.4nm combined with low stray light of less than 0.05%T.

Deuterium and tungsten light source deliver superior stability across the full wavelength range. Both types of lamp have self timers and are inexpensive and easy to replace when required.

The monochromator is completely sealed and the optical surfaces can be easily cleaned to maintain optimum reflectivity over the lifetime of the instrument.

A maintenance free high resolution direct stepper drive positions the grating precisely, which ensures reproducible wavelength scanning at different scan speed, thus negating any wavelength peak shift.

The principle of T6U spectrophotometer is based on the absorption of ultraviolet or visible light by chemical compounds, which results in the generation of unique spectra. Spectroscopy is based on the interaction of light and matter. When matter absorbs light, it undergoes excitation and de-excitation, resulting in the formation of a spectrum.

When matter absorbs ultraviolet (UV) radiation the electrons in it are excited. This causes them to transition from a ground to an excited state. It is crucial to remember that the difference in energy between the electron’s ground and excited states is always equal to the quantity of ultraviolet or visible radiation absorbed by it.

According to the Beer-Lambert law, when a monochromatic light beam is incident on a solution containing a substance that absorbs the monochromatic light, the rate at which the intensity of the beam decreases along the thickness of the solution is directly proportional to the concentration of the absorbing substance in the solution and also directly proportional to the intensity of the incident monochromatic radiation.

1. Education in universities and colleges： Determination of complex composition, Obtain kinetics curves , acid-base dissociation constant, photometric titration, etc
2. Environmental monitoring & control：Monitoring of water quality, atmospheric pollution,rainfall and soil contamination.
3. Food & Beverage production and quality control：Analysis of additives preservatives and flavours, fat contents,enzyme, glucose, flavouring, minerals, vitamins, etc.

4. Agricultural monitoring：Can be applied in various agriculture, such as pesticide detection, crops analysis, animal medicine analysis, fertiliser inspection, soil analysis, animal food stocks inspection etc.
5. Geology & Metallurgy：Determination of metallic elements and inorganic salt in minerals.
6. Gas & oil：Can be applied in petrochemical production process control, product inspection