ICP Atomic Emission Spectrometers - ICPE-9800 Series

The ICPE-9800 series of simultaneous ICP atomic emission spectrometers from Shimadzu are advanced systems that provide excellent precision required for simultaneously and rapidly testing numerous elements regardless of their concentration levels.

The ICPE-9800 series features user-friendly software to enable different types of analysis. They decrease analysis costs and still maintain the industry’s highest performance levels.

They are a vital tool for use in several industries such as environmental, metal, food, chemical, pharmaceutical, and others.

Benefits and Features of the ICPE-9800 Series

The benefits and features of the ICPE-9800 Series. In various sectors are:

Food Sector

  • Achieves a wide dynamic range from ppb to percent order due to axial and radial views, thereby allowing complete analysis of a wide range of concentrations simultaneously, resulting in improved throughput.
  • The all-wavelengths acquisition system is capable of detecting the influence of the matrix, and offers the optimal technique. Furthermore precise analysis values can be obtained rapidly.
  • Shimadzu's proprietary features such as mini-torch system, eco mode, and vacuum spectrometer result in significantly reduced consumption of argon gas.

Environmental Sector

  • High level of robustness
  • Sample injection system with vertical torch orientation is designed to decrease torch clogging and memory effects. Even in the case of boron, which tends to generate memory effects, measurements can be repeated with short rinse times, thereby ensuring shorter analysis time.
  • The axial view has been optimized to provide high levels of sensitivity.
  • A much higher level of sensitivity can be achieved by integrating the ICPE-9800 with an optional ultrasonic nebulizer or hydride generator.

Chemical Sector

  • The torch’s vertical orientation reduces memory effects, thereby ensuring stable analysis results even for samples with high concentrations of acids or salts, or for numerous organic solvents.
  • The advanced software (ICPE solution) with enhanced usability, makes daily analysis much easier and simpler.
  • Shimadzu's proprietary features such as mini-torch system, eco mode, and vacuum spectrometer result in significantly reduced consumption of argon gas.

Metal/Electrical/Electronics Sector

  • Obtains precise measurement values, even when testing complex materials, using the data acquired for all wavelengths, as well as a complete wavelength database that includes interference data.
  • Obtains long-term stability and the highest level of reproducibility due to the instrument's proprietary high-frequency power source, a robust optical system and a sample injection system that does not cause any memory effects.
  • The axial view unit can be removed to enable the system to be exclusively used for radial view.

Medical Sector

  • Highly sensitive, large, 1-inch CCD detector meets strict detection limit requirements
  • The torch is designed to resist the adhesion of carbon, thereby allowing the direct testing of organic solvent samples without the need for oxygen. This achieves stable testing without extra costs or time.
  • Capable of always acquiring data for all wavelengths, thereby making it easy to quickly confirm the effect of matrix interference when analyzing capsules or tablets with matrices such as titanium oxide.
  • Support for 21 CFR Part 11 data management is provided by ICPE solution software.

Other Equipment by this Supplier

While we only use edited and approved content for Azthena answers, it may on occasions provide incorrect responses. Please confirm any data provided with the related suppliers or authors. We do not provide medical advice, if you search for medical information you must always consult a medical professional before acting on any information provided.

Your questions, but not your email details will be shared with OpenAI and retained for 30 days in accordance with their privacy principles.

Please do not ask questions that use sensitive or confidential information.

Read the full Terms & Conditions.