EziLab Visible Spectrometer EZL-VS112 performs absorbance, transmittance, and concentration measurements across food quality testing, pharmaceutical analysis, environmental monitoring, and chemical laboratory applications. Wavelength range spans 340 to 1000 nm with 2 nm bandwidth and 2 nm accuracy for vis spectrometer performance. Single beam optical system with 1200 lines per mm grating and silicon photocell detection maintains photometric accuracy within 0.5% T and repeatability within 0.2% T. Stray light stays below 0.1% T at 360 nm, while photometric range covers 0 to 100% transmittance and 0 to 1.999 absorbance for versatile analytical workflows. EziLab's Lab Equipment and spectrophotometers present the complete vis spectrometer and single beam visible wavelength selection for analytical laboratories.



Quantity:
$1460
Wavelength Range 340 to 1000 nm
Optical System Single Beam
Bandwidth Options 2 nm
Wavelength Accuracy ± 2nm
Wavelength Repeatability Less than or equal to 1nm
Photometric Accuracy ± 0.5 %T
Photometric Repeatability Less than or equal to 0.2 % T
Photometric Range 0.0–100%(Transmittance)0-1.999 (Absorbance) 0-1999 (Concentration)
Stray Light Less than or equal to 0.1 % T at 360 nm
Grating 1200 lines /mm
Detector Silicon Photocell
Power Requirements AC 220 V ± 22V 50Hz ± 1 Hz 80W
Packaging Size 580 × 460 × 345nm
Gross weight 12.5Kg
  • USB memory storage

  • High wavelength accuracy

  • Low Stray Light

  • User friendly operation

  • Rapid standard curve setup

User Manual

1 piece

1 cm Glass Cuvette

4 pieces

1 cm Quartz Cuvette

2 pieces

Power Cord

1 piece

Fuse

2 pieces

1.

 Thermal Printer

2.

Cuvette Holder 50mm

 

  • Visible Spectrophotometer EZL-VIS112 features an advanced data export options for effortless connectivity and streamlined documentation of results. It is widely used in clinical diagnostics, medical laboratories, environmental testing, pharmaceutical analysis, food and beverage quality control.

Frequently Asked Questions

The Visible Spectrophotometer EZL-VIS112 is designed for a wide variety of laboratory samples, including biomolecules, chemicals, and environmental specimens. It allows researchers to monitor reactions, quantify concentrations, and perform quality control tests efficiently. Its broad usability makes it suitable for academic, clinical, and industrial labs. The instrument’s reliable accuracy ensures meaningful data even in routine testing scenarios. By supporting diverse sample types, it streamlines workflows across multiple laboratory applications.

Ezilab’s Visible Spectrophotometer EZL-VIS112 features an intuitive interface that simplifies measurement setup and operation. Users can quickly select wavelengths and modes, reducing training time and operational errors. The instrument also supports repeatable procedures, ensuring consistency across multiple runs. Its ergonomic design allows easy handling of cuvettes and samples without strain. Overall, the spectrophotometer is suitable for both experienced and new laboratory personnel.

Our Visible Spectrophotometer EZL-VIS112 provides highly repeatable measurements, reducing variability in experimental results. Its precise photometric accuracy ensures that absorbance readings reliably reflect true sample concentrations. This consistency is crucial for quality control, research experiments, and comparative studies. Laboratories can trust that repeated tests yield reliable data for critical analyses. The repeatability supports efficient workflow without frequent recalibration.

The Visible Spectrophotometer EZL-VIS112 supports efficient testing workflows, making it suitable for multiple samples. Its stable photometric performance ensures that each sample is measured reliably. Users can quickly switch between samples with minimal setup time, enhancing lab productivity. The instrument’s ease of operation reduces errors in high-volume testing environments. This makes it ideal for research labs, clinical testing, or quality control departments handling frequent assays.

The Visible Spectrophotometer EZL-VIS112 allows precise wavelength selection, ensuring accurate detection of specific absorbance peaks. Our design minimizes drift and variation, which is crucial for experiments requiring high sensitivity. This feature is particularly useful in biochemical assays or environmental testing where small differences matter. Laboratories can confidently rely on the instrument for reproducible and trustworthy results. Accurate wavelength control also reduces the need for repeated measurements, saving both time and resources.