Automated Organic Analysis & Early Warning Sentinel
Aqualog® is the only instrument to simultaneously measure both absorbance spectra and fluorescence Excitation-Emission Matrices. EEMs are acquired up to a 100 times faster than with other instruments. Dedicated software automates traceable Quinine Sulfate Unit calibration and correction of inner-filter effects and Rayleigh and Raman scattering lines, enabling rapid export to modeling algorithms like PARAFAC.
Aqualog now offers new deep UV absorbance and fluorescence excitation from 200 nm, in addition to a fully automated sample queue tool to facilitate continuous data acquisition, analysis and export for immediate multivariate analysis with the Solo™ package from our partner, Eigenvector Research, Inc.
Life in the Arctic with the Aqualog was created entirely by our customer who wanted to record her experience transitioning from a scanning fluorometer to the Aqualog for water research. She is solely responsible for its content.
A-TEEM technology uses absorbance, transmittance and EEM data to fingerprint molecules with high specificity and ultrahigh-sensitivity at a 6 million nm/min emission scan rate!
All colored molecules exhibit unique molecular absorbance and transmittance spectra; many colored molecules also exhibit unique fluorescence excitation and emission spectra that can be measured as an excitation-emission matrix (EEM). Simultaneously combining Absorbance–Transmission and EEM is a new technique (A-TEEM) that provides a distinct molecular fingerprint with numerous potential applications.
Aqualog combines an ultrafast CCD that’s up to 4,000 times faster than traditional PMT-based fluorometers, with our new A-TEEM technology so you can easily and effectively identify, quantify and understand individual organic compounds in complex mixtures in minutes. A-TEEM has already proven in many cases to be more effective in protein, vaccine, wine and water research, quality and process applications than HPLC and vibrational spectroscopy.
Aqualog Datastream Dashboard is powered by Solo_Predictor software from Eigenvector Research, Incorporated
HORIBA Instruments is pleased to introduce a new software tool designed to automate multivariate and machine learning analysis workflows for industrial QC/QA applications of HORIBA’s patented Aqualog Absorbance- Transmission fluorescence Excitation Emission Matrix (A-TEEM™) spectrometer.
Key Applications of HMMP Tool
Key Features and Benefits
New for our Aqualog® A-TEEM™ spectrometer, the Aqualog automatic sipper accessory handles sampling from a single source, in addition to dispensing rinsing solutions, detergents and controlling reverse-flow drainage The 4-sample changer unitconnects to the main sipper unit to enable sampling of up to 4 sources.
The sipper offers convenient installation and operation, with built-in automatic cleaning, leak detection and protection. It is fully integrated into the new Aqualog 4.0 software for batch analysis and has a variety of uses in water, pharmaceutical, beverage phenolics and many other applications.
When used at a water treatment plant, the sipper and four channel accessory enable the Aqualog to automatically extract and monitor raw, settled and finished water samples. Each sample changer unit is compatible with overflow and filtration devices, serving up to 4 independent water treatment plant sources.
|Extended-UV: 150W vertically mounted xenon arc lamp|
|200 nm to upper limit of emission detector|
Subtractive double monochromator
1200 gr/mm, 250 nm blaze
Excitation wavelength accuracy
Choice of Detector
|285 gr/mm; 350 nm blaze|
Hardware pixel binning
|0.58, 1.16, 2.32, 4.64 nm/pixel|
Fixed, aberration-corrected 140 mm focal length
TE-cooled back-illuminated CCD
Emission integration time
5 ms minimum
CCD gain options
2.25 e-/cts in high gain, 4.5 e-/cts in medium gain, 9 e-/cts in low gain
Water-Raman SNR > 20,000:1 (RMS method) (350 nm excitation, 30s integration)
32.72 kg (72 lbs)
LWH (618 x 435 x 336 mm); (24" x 17" x 13")
|200-800 nm (UV lamp)|
|Maximum 500 nm/s|
|Optical system||Corrected single-beam|
|+/- 1 nm|
|+/- 0.01 AU from 0 to 2 AU|
|Photometric stability||<0.002 AU per hour|
|Photometric repeatability||+/- 0.002 AU (0 to 1 AU)|
<1% measure with Kl standard
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