MicroMist DC Nebulizer 0.4mL/min for MP

Glass Expansion SKU: MP11-1-UM04

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MicroMist Nebulizer 0.4mL/min for MP

Glass Expansion Part Number: MP11-1-UM04

Includes:

  • NFT-050 UniFit Connector with 0.50mm ID x 1.3mm OD x 700mm long tubing (1 piece)
  • 70-803-0969 Gas Fitting with Ratchet Nebulizer connector

Suitable for the Following Instruments:

  • Agilent (Varian) | MP-AES | 4100 / 4200 MP-AES | Radial

MicroMist DC Nebulizer

The Glass Expansion MicroMistTM low-flow nebulizer is ideal for ICP-MS applications due to its excellent transport efficiency and precision. The MicroMist uses the same VitriConeTM technology as the industry standard Conikal and SeaSpray nebulizers, resulting in the most rugged and reliable high performance low-flow nebulizer available.

The MicroMist micro-uptake glass concentric nebulizer offers high performance for limited sample volumes. It makes routine ICP-MS Hg determinations possible and reduces matrix effects when used with Glass Expansion's Cinnabar spray chamber.

General Specifications:

  • Material: Borosilicate glass
  • High physical reproducibility ~ 1%
  • TDS tolerance, typically up to 15%
  • Low RSD's due to highly accurate construction
  • Standard available uptake: 0.05, 0.1, 0.2, 0.4 & 0.6mL/min

Benefits of the VitriCone Construction

  • Sample channel is guaranteed uniform from entry point to nebulizer tip and thus resistant to clogging, in addition to providing a zero-dead volume sample connection.
  • Rugged precision-machined capillary resists vibration and delivers the best possible precision.
  • Industry’s tightest tolerances ensure that each nebulizer will perform to the same high standards as the previous one.

Recommended Applications

  • Applications requiring the highest sensitivity and precision, such as toxic metals in cannabis.
  • ICP-MS applications where oxide interferences exist.
  • Samples with limited volume, such as difficult to digest samples or biological.
  • Radioactive samples that are expensive to dispose of.
  • Volatile organic solvents that would otherwise cause an excessive load on the plasma.