Fluorescence Spectrophotometer for Trace Chemical Detection
Fluorescence spectrophotometer uses UV/visible excitation optical radiation to detect trace concentrations of fluorescent chemical compounds. Classified in HTS 9027.50.80.15 for chemical analysis via emission spectroscopy in environmental and biochemical applications. Critical for pollutant detection, DNA analysis, and pharmaceutical purity testing.
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Alternative Classifications
This product could be classified differently depending on its characteristics or intended use.
If for gas/liquid chromatography fluorescence detectors
Fluorescence detectors as separate parts for chromatographs classify under other chemical analysis apparatus.
If medical diagnostic imaging fluorescence systems
Patient examination fluorescence apparatus classifies under medical imaging instruments.
If automated high-throughput screening configuration
Fully automated laboratory analysis machines with fluorescence may classify under Chapter 84 lab equipment.
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Import Tips & Compliance
• Provide excitation/emission wavelength specifications confirming UV/visible optical radiation for fluorescence chemical analysis
• Distinguish from medical flow cytometers by specifying laboratory analytical vs patient diagnostic use
• EPA compliance documentation required for environmental monitoring units; pitfall is missing method validation certificates
Related Products under HTS 9027.50.80.15
NIR Spectrometer for Chemical Composition Analysis
This near-infrared (NIR) spectrometer uses optical radiation in the infrared spectrum to analyze the chemical composition of solids, liquids, and gases non-destructively. It falls under HTS 9027.50.80.15 as it is a chemical analysis instrument employing infrared optical radiation for molecular identification through absorbance spectroscopy. Commonly used in food, pharmaceutical, and agricultural quality control.
FTIR Spectrometer for Molecular Structure Identification
Fourier Transform Infrared (FTIR) spectrometer utilizes infrared optical radiation to identify molecular structures and functional groups in chemical samples. It qualifies for HTS 9027.50.80.15 as a chemical analysis apparatus relying on IR spectroscopy for qualitative and quantitative analysis. Widely applied in material science, forensics, and polymer chemistry.
Benchtop Elemental Analyzer with LIBS Technology
Laser-Induced Breakdown Spectroscopy (LIBS) analyzer uses ultraviolet/visible optical radiation from laser plasma to perform rapid elemental chemical analysis of metals, soils, and liquids. Falls under HTS 9027.50.80.15 as optical radiation-based chemical analysis apparatus. Used in mining, metallurgy, and environmental remediation.
Optical Emission Spectrometer for Liquid Chemical Analysis
Inductively coupled plasma optical emission spectrometer (ICP-OES) analyzes metal ions in liquid samples using ultraviolet/visible emission spectra from plasma excitation. Classified under HTS 9027.50.80.15 for chemical analysis via optical radiation detection. Standard in water quality testing, semiconductor manufacturing, and clinical chemistry.
Microplate Reader with UV-Vis Absorbance Detection
96-well microplate spectrophotometer reader measures UV-visible absorbance for high-throughput chemical and biochemical assays. Qualifies under HTS 9027.50.80.15 as multi-channel optical radiation chemical analysis apparatus. Essential for drug discovery, ELISA testing, and cell viability assays.
Handheld Infrared Chemical Identifier
Portable FTIR-based chemical identifier uses infrared optical radiation for rapid identification of unknown solids/liquids in field operations. Classified HTS 9027.50.80.15 as chemical analysis apparatus employing IR spectroscopy. Deployed by hazmat teams, law enforcement, and industrial safety personnel.