Introduction
A spectrophotometer can be defined as an instrument used to measure the amount of light absorbed by a sample. It works by shining a light beam through the sample and comparing the amount of light before and after it contacts the sample. It measures the absorbance and transmittance of light. Absorbance is the measure of how much light is absorbed by the sample. Transmittance is the measure of how much light passes through the sample and reaches the light detector.
Spectrophotometers are relied on in research and labs in chemistry, biology, and the pharmaceutical industry to determine the purity of a compound, identify a compound, or observe the progress of a reaction over time. UV-Vis spectrophotometers are popular in labs for analytical testing because they provide almost instantaneous readings and have a potential wavelength range from the ultraviolet spectrum, to visible light.
They are used for drug analysis, enzyme reactions, water quality testing and color measurement in food and textile industries.
Working Principle of Spectrophotometer
A spectrophotometer sends a beam of light through a sample. The sample absorbs some wavelengths and allows others to pass. The detector calculates how much light is absorbed and converts it into numerical data. This gives information about the substance in the sample.
Basic Components
• Light source: Xenon, Deuterium or Tungsten lamps are used to produce stable light.
• Monochromator: A prism or diffraction grating separates light into specific wavelengths.
• Sample holder or cuvette: Holds the liquid or solution being tested. Usually made of quartz or glass.
• Detector: Photodiode or photomultiplier tube detects the light after it passes through the sample.
• Display or software: Shows results in absorbance or transmittance. Data can be stored or exported for reports.
Step-by-Step Working
• Light is emitted from the lamp.
• The monochromator selects a specific wavelength.
• Light passes through the sample in the cuvette.
• The detector measures the transmitted light.
• The device calculates absorbance using the Beer-Lambert law. Results are shown on the display or software.
Example: In a UV-Vis spectrophotometer, you place a chemical solution in a quartz cuvette. You select a wavelength, such as 280 nm. The light passes through the solution. If the solution absorbs light at this wavelength, the detector records a drop in intensity. The spectrophotometer calculates the absorbance and displays the concentration based on a standard curve.
Types of Spectrophotometers
Below are the top 6 important spectrophotometers by LABIX Industries.
- Double Beam UV-Vis Spectrophotometer Xenon Lamp
- Double Beam UV-Vis Spectrophotometer Touch Screen
- Double Beam UV-Vis Spectrophotometer Variable Bandwidth with 8 Cell Changer
- Single Beam UV-Vis Spectrophotometer
- Single Beam UV-Vis Spectrophotometer with Professional Scanning Software
- Visible Spectrophotometer Microprocessor Based
Each type has its use based on accuracy, light source and data needs.
Based on Beam Type
- Single Beam Spectrophotometer
A single beam spectrophotometer sends one light path through the sample. You measure the blank first, then the sample. It is simple, low cost and suited for teaching labs and small chemical tests. Example: Single Beam UV-Vis Spectrophotometer by LABIX Industries.
2. Double Beam Spectrophotometer
A double beam spectrophotometer splits light into two paths, one through the sample and one through a reference. This setup gives stable readings and reduces errors from light source fluctuations. Example: Double Beam UV-Vis Spectrophotometer with Xenon lamp by LABIX Industries.
Based on Wavelength Range
1. UV Spectrophotometers
Used for ultraviolet region between 200 to 400 nm. Ideal for protein, nucleic acid and pharmaceutical testing. Allows analysis of substances that absorb UV light.
2. Visible Spectrophotometers
Measures light in the visible range from 400 to 700 nm. Used in food color analysis, textile dye testing and water analysis. Suitable for colored solutions and routine laboratory work.
3. UV-Visible UV-Vis Spectrophotometers
Covers both UV and visible range from 200 to 700 nm. Most common in research and industry. Used for chemical concentration, enzyme reactions and quality control. LABIX double beam models offer touch screen and variable bandwidth.
4. Atomic Absorption Spectrophotometers AAS
Used to measure metal ions in samples by atomizing them. Works in flame or graphite furnace. Used in environmental testing, food safety and metal analysis. Detects traces of lead, copper, zinc and more.
Spectrometer vs Spectrophotometer
| Feature | Spectrometer | Spectrophotometer |
|---|---|---|
| Purpose | Measures the intensity of light at different wavelengths | Measures how much light a sample absorbs or transmits |
| Sample interaction | Light is not passed through a sample | Light passes through a sample |
| Output | Spectrum of light only | Absorbance or transmittance values plus spectrum |
| Use case | Optical analysis, wavelength separation | Chemical concentration, solution analysis |
| Example | Measuring emission of light sources | Measuring protein concentration in a solution |
In simple terms:
A spectrometer only separates and detects light.
A spectrophotometer does more, it uses a spectrometer to measure how much light a sample absorbs.
Function of Spectrophotometers
In Chemical Laboratories
• Measure concentration of solutions using the Beer-Lambert law
• Monitor reaction progress by checking absorbance changes over time
• Identify unknown substances from their absorbance peaks
• Commonly used in titrations, enzyme kinetics and colorimetric tests
In Pharmaceutical Industry
• Test drug purity by comparing sample absorbance with standards
• Check API concentration in tablets and syrups
• Used in dissolution testing and stability studies
• Helps maintain compliance with pharmacopeia standards
In Food and Beverage Industry
• Measure color intensity in beverages, oils and juices
• Detect additives, contaminants or adulteration
• Used in sugar analysis, wine testing, and milk quality checks
• Supports routine quality control in factories
In Educational and Research Institutions
• Used to teach students about light, absorbance and chemical analysis
• Helpful for small research projects and lab experiments
• Affordable single beam models are common in universities
In Environmental Studies
• Used for water testing to measure nitrate, phosphate, or heavy metals
• Monitor pollution levels in lakes, industrial discharge and drinking water
• Helps assess effects of chemicals on the environment
Advantages of Spectrophotometers
• Fast results
• Non-destructive testing
• Works with liquids, transparent solids and solutions
• Digital data output and USB or software connectivity
• Suitable for chemical, food, pharma, textile and research labs
Why Choose LABIX Industries Spectrophotometers
• LABIX Industries manufactures UV-Vis and Visible spectrophotometers for research, industrial and academic use
• Models include touch screen control, Xenon or Deuterium lamps and professional scanning software
• Double beam models offer higher stability and simultaneous reference measurement
• Variable bandwidth systems allow precise wavelength control
• Some models include an 8-cell changer for faster testing
• LABIX instruments follow ISO quality standards and offer long-term support
FAQs
1. What is the main use of a spectrophotometer?
To measure how much light a sample absorbs and to calculate the concentration of substances in that sample.
2. What is the difference between single beam and double beam spectrophotometers?
Single beam measures blank and sample separately. Double beam measures sample and reference at the same time, giving more stable readings.
3. Can spectrophotometers measure color intensity?
Yes. Visible and UV-Vis spectrophotometers measure color intensity in liquids like juice, wine, dye or water samples.
4. What is the typical wavelength range of a UV-Vis spectrophotometer?
Usually from 200 to 800 nanometers. UV region is 200 to 400 nm. Visible region is 400 to 700 nm.
5. How often should a spectrophotometer be calibrated?
Calibration should be done regularly. Labs usually calibrate daily or weekly depending on usage. Calibration ensures accurate readings.
At the End
Spectrophotometers are essential for measuring absorbance and concentration in laboratories. You use them in chemistry, pharmaceuticals, food analysis, water testing and research. They provide quick, repeatable results and handle different types of samples.
LABIX Industries offers a selection of UV-Vis and Visible spectrophotometers with features like touch screens, Xenon lamps, scanning software and ISO-certified manufacturing. Their instruments support accurate testing in labs, industries and educational institutes.
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