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Compact Spectrometers and Spectrophotometers

Ocean ST NIR Spectrometer
Ocean Optics
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Ocean ST NIR Spectrometer
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The Ocean ST NIR Microspectrometer is an ultra-compact (42 × 40 × 26 mm), high-SNR (up to 2250:1) instrument optimized for near-infrared performance, covering 645–1085 nm. With USB-C connectivity, superior thermal stability, and the OceanDirect™ SDK, it is well-suited for applications such as moisture and ...

Specifications
Wavelength Range (reflectance): 645 – 1085 nm
Resolution: 2.2 nm
Minimum Scan Time: Not Specified
Wavelength Range: 645-1085 nm (NIR)
Optical Resolution: 2.2 nm (FWHM)
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Ocean ST Compact UV Microspectrometer
Ocean Optics
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Ocean ST Compact UV Microspectrometer
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The Ocean ST UV Microspectrometer is an ultra-compact (42 × 40 × 26 mm), high-SNR (up to 2250:1) instrument optimized for ultraviolet measurements, covering 185–400 nm. With USB-C connectivity, superior thermal stability, and the OceanDirect™ SDK, it is ideal for DNA absorbance, protein analysis, environmental ...

Specifications
Wavelength Range (reflectance): 185 – 650 nm
Resolution: 2.2 nm
Minimum Scan Time: Not Specified
Wavelength Range: 185-650 nm (UV-Vis)
Optical Resolution: 2.2 nm (FWHM)
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Ocean HR4 Spectrometer – High-Resolution, Thermal Stability, UV-Vis-NIR Range
Ocean Optics
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Ocean HR4 Spectrometer – High-Resolution, Thermal Stability, UV-Vis-NIR Range
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The Ocean HR4 Spectrometer is engineered for high-resolution spectroscopy, providing exceptional thermal stability and low stray light performance. With an optical resolution of less than 0.1 nm (FWHM) and a dynamic range of up to 12,000:1 in a single scan, it ensures precise and reliable measurements across various ...

Specifications
Wavelength Range (reflectance): 190 – 1100 nm
Resolution: 0.13 nm
Minimum Scan Time: 0.0038 sec
Wavelength Range: ~190-1100 nm
Integration Time: 3.8 ms-10 s
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Ocean HR2 Spectrometer – Rapid, Stable, High-Resolution Performance
Ocean Optics
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Ocean HR2 Spectrometer – Rapid, Stable, High-Resolution Performance
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The Ocean HR2 Spectrometer is engineered for high-resolution spectroscopy, providing exceptional performance across various applications. With an optical resolution of 1.33 nm (FWHM) and a dynamic range of 25,800:1 in a single scan, it ensures precise and reliable measurements. Some of the features which make this product the go-to ...

Specifications
Wavelength Range (reflectance): 190 – 1100 nm
Resolution: 0.14 nm
Minimum Scan Time: Not Specified
Wavelength Range: 190-1100nm
Integration Time: 1 µs-2 s
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High-Resolution Optical Spectrometer
OZ Optics
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High-Resolution Optical Spectrometer
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High-Resolution Optical Spectrometer by OZ Optics is a cost-effective and high-end spectrometer designed for various applications. It features a wide spectral range, exceptional sensitivity, high signal-to-noise ratio (SNR), and excellent spectral resolution. The spectrometer is compact, rugged, and can be integrated into existing ...

Specifications
Wavelength Range (reflectance): 190 – 850 nm
Resolution: 1 nm
Minimum Scan Time: Not Specified
Integration Time: 4 milliseconds to 10 seconds
Dark Noise: < 25 counts at 4 milliseconds exposure
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FLEX Microspectrophotometer
CRAIC Technologies
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FLEX Microspectrophotometer
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The FLEX PRO™ from CRAIC Technologies is a powerhouse of versatility and performance, offering a full suite of features in a flexible configuration. Integrating UV-visible-NIR optics, spectrophotometers, digital imaging, and software, all harmonized by our Lightswitch by CRAIC™ optical multiplexer, the FLEX PRO™ ...

Specifications
Wavelength Range (reflectance): 240 – 1000 nm
Resolution: 3 nm
Minimum Scan Time: 0.15 sec
Absorbance Microspectroscopy: Y
Reflectance Microspectroscopy: Y
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Brolight UV-VIS Spectrometer
Hangzhou Brolight Technology
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Brolight UV-VIS Spectrometer
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BIM-60 series spectrometer adopts miniature optical machine platform. It is compact and portable. The resolution is up to 0.35nm-1nm. BIM-6002A series spectrometer has a great upgrade in circuit. The dynamic range is enhanced to 10000:1 and the minimum integration time is reduced to 0.5ms. Meanwhile the signal noise ratio is ...

Specifications
Wavelength Range (reflectance): 315 – 1100 nm
Resolution: 0.35 nm
Minimum Scan Time: Not Specified
Wavelength Range: 315nm-1100nm optional
Resolution: Optimal~0.35nm
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EQ Photonics GmbH - IR Spectrometer - SW-Series
EQ Photonics
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EQ Photonics GmbH - IR Spectrometer - SW-Series
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The high-end spectrometers of the SW series cover the NIR range from 900 – 2500 nm. Their wide span of applications in industry and science range e.g. from chemical analysis, biophotonics to Raman spectroscopy. An internal ring buffer allows synchronous measurement and readout in continuous 24/7 operation. The robust ...

Specifications
Wavelength Range (reflectance): 900 – 2500 nm
Resolution: 2.5 nm
Minimum Scan Time: Not Specified
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ET-100 Emissometer
Surface Optics Corp
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ET-100 Emissometer
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The ET-100 Emissometer is a cutting-edge instrument designed to measure directional reflectance across a wide spectral range of 1.5 to 21 μm. By analyzing these reflectance values, the ET-100 calculates both directional and total hemispherical emissivity, providing critical data for a variety of scientific and industrial ...

Specifications
Wavelength Range (reflectance): 1500 – 21000 nm
Minimum Scan Time: 7 sec
Measured Parameter: Directional hemispherical reflectance (DHR)
Measured Value: Absolute reflectance (0-1)
Calculated Value: Directional thermal emissivity at 20º, directional thermal emissivity at 60º, hemispherical thermal emissivity
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410-DHR Reflectometer
Surface Optics Corp
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410-DHR Reflectometer
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The 410-DHR is a groundbreaking portable device designed for the precise verification of optical properties of large objects in the field. This innovative product is the result of a collaborative effort between the U.S. Naval Air Systems Command and Surface Optics, with significant contributions from the Naval Research Lab (NRL) and ...

Specifications
Wavelength Range (reflectance): 900 – 12000 nm
Minimum Scan Time: 7 sec
Measured Parameter: Directional hemispherical reflectance (DHR)
Measured Value: Absolute reflectance (0-1)
Wavelength Bands (microns): .9-1.1, 1.9-2.4, 3.0-4.0, 3.0-5.0, 4.0-5.0, 8.0-12.0
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CubeX 500 - ELDIM
Alrad Instruments Ltd
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CubeX 500 - ELDIM
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ELDIM’s multi-angle spectroradiometer: CubeX. Perfectly suited for several measurements, very light and easy to handle. Ideal for R&D team and mass production lines due to its speed, accuracy and multi-use purpose. This new product is based on a fully new technology patented by ELDIM. To understand this technology, you can ...

Specifications
Wavelength Range (reflectance): 400 – 700 nm
Resolution: 10 nm
Minimum Scan Time: 5 sec
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Microscopic Spectrometer
YIXIST YIXI Technology Co., Ltd
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Microscopic Spectrometer
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The YOA-8405 Microscopic Reflection Spectrometer integrates the precision of a microscope with the analytical power of a miniature spectrometer, making it an essential tool for measuring reflection spectra and colorimetric parameters of micron-scale samples. Designed with a modular structure, it allows flexible configuration with ...

Specifications
Wavelength Range (reflectance): 350 – 1050 nm
Resolution: 1 nm
MRC Module: YOA-8405/8402
Detector: 2048 pixel line array CMOS,2048×64 pixel surface array detector CCD,1024×58 pixel cooled surface array detector CCD
Wavelength Range: 350nm-1050 nm
Data Sheet
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Frequently Asked Questions

In simple terms, a spectrophotometer is a device used to measure the intensity of light transmitted, absorbed or reflected from a material at different wavelengths. It works by measuring the amount of light that passes through a sample, and the amount of light that is absorbed by the sample at different wavelengths.

Spectrophotometers measure how much light a sample can absorb or transmit, while spectrometers instead measure the radiated light itself. Spectrophotometers include a spectrometer, but they also incorporate a light source used for sample illumination.

Aside from simply assessing the color of samples, spectrophotometers have common applications in science and medicine. The devices are frequently used in molecular biology to measure the growth of microorganisms and bacteria, playing a large role in disease diagnosis and pathological state changes. They are also used in forensic sciences, hematology, chemistry, and chemical kinetics.

To measure absorbance, a spectrophotometer will shine a beam of light (of a specific wavelength) through a sample and capture the light that reflects back. Based on the light that is transmitted, the device will measure the level of light that the sample can absorb. Spectrophotometers can measure absorbance for just about any sample: metals, plastics, paper, liquids, fabrics, and more.

Spectrophotometers, as described above, will emit a light radiation that will pass through a sample and measure light intensity at different wavelengths. This data can then be used to identify many properties of the sample such as correlated color temperature, chemical structure, chromaticity, absorption/transmission spectra and more.

Your best choice is dependent upon what you will be using it for; you don’t want to pay for a device with features that you may not need. Key features to consider when selecting a spectrophotometer are the wavelength range, resolution, minimum scan time, measuring range, and sensitivity.

There are 30 different Compact Spectrometers from suppliers and manufacturers listed in this category. In just a few clicks you can compare different Compact Spectrometers with each other and get an accurate quote based on your needs and specifications. Please note that the prices of Compact Spectrometers vary significantly for different products based on various factors including technical parameters, features, brand name, etc. Please contact suppliers directly to inquire about the details and accurate pricing information for any product model. Simply navigate to the product page of interest and use the orange button to directly reach out to the respective supplier with one click.

Did You know?

Did you know Spectroscopy, the umbrella term for Spectrophotometry studies, is used all around you? The benefits of spectrophotometry studies are extremely broad, affecting a vast range of unexpected projects that constantly improve the quality of everyday life. Scientists use spectrophotometry technology to identify diseases and develop cancer treatments, but the technology is also used for simple tasks like matching paint colors when you decide to repaint your bedroom. The devices are used in numerous applied sciences, from biomedical sciences to space exploration, but they are most commonly used in fields involving chemistry, agriculture, molecular biology, and environmental studies. Spectroscopy is used to determine the components and characteristics of any sample, so the applications are seemingly endless. Researchers have more recently used spectroscopy for elemental analysis, even on samples from distant planets. So spectrophotometer devices may someday play a role in the discovery of life beyond our home planet. There are several types of spectrophotometers, including UV-visible, infrared, and fluorescence spectrophotometers. UV-visible spectrophotometers are commonly used to measure the absorbance or transmittance of light in the ultraviolet and visible regions of the electromagnetic spectrum. Infrared spectrophotometers are used to measure the absorption, reflection, or transmission of infrared radiation by a sample. Fluorescence spectrophotometers are used to measure the emission of light by a sample after it has been excited by a specific wavelength of light.
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External links:
1 - Browse All Spectrometers
2 - Check out Raman Spectrometers
3 - Colorimeters