Operating Principles of a Spectrofluorometer:
In some molecules, the return of electrons to their ground state energy level is accompanied by the emission of fluorescence. In a spectrofluorometer, measuring the intensity of the fluorescent light allows researchers to study the concentration, properties, or interactions of molecules. Fluorimetry has broad applications in biochemistry and medicine.
Applications of the Spectrofluorometer:
The spectrofluorometer has a wide range of applications across various fields, including:
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Pharmaceutical research
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Life sciences research
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Chemicals and energy
Advantages:
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Ability to analyze a wide spectrum of substances
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Low maintenance cost and long lamp lifespan
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High analysis speed due to the instrument's method of operation (no lamp changes required)
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Accurate and dependable results
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Easy to use
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Fast setup of accessories
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Capability to measure liquids, solids, and powders
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No sample preparation required
Disadvantages:
Summary:
The fluorescence spectrophotometer meets users' analytical needs with an easy-to-use, reliable, highly sensitive, trustworthy instrument that offers improved sampling. This spectrometer is the top choice for all applications in academic teaching and research, life sciences, biotechnology, chemicals, energy, and food, pharmaceutical, and environmental analysis.
The Spectrofluorometer:
In some molecules, the return of electrons to their ground state energy level is accompanied by the emission of fluorescence. In a spectrofluorometer, measuring the intensity of the fluorescent light allows researchers to study the concentration, properties, or interactions of molecules. Fluorimetry has broad applications in biochemistry and medicine.