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IonRanger

  • Based on the Half-Mini DMA, optimal for nanoparticles <30nm, operational up to 40nm

  • Coupled with DuoPole™ bipolar electrospray chamber for optimal performance

  • Plug and play, only AC power needed

  • Half-Mini DMAs are widely used in literature

  • Contact for quote

Literature on Half-Mini

  1. A bipolar electrospray source of singly charged salt clusters of precisely controlled composition

  2. Technical note: Characterization of a Half-Mini DMA with 38 nm viral particles

  3. ​Expanded flow rate range of high-resolution nanoDMAs via improved sample flow injection at the aerosol inlet slit

  4. Hand-held differential mobility analyzers of high resolution for 1–30 nm particles: Design and fabrication considerations

  5. Application of Half Mini DMA for sub 2 nm particle size distribution measurement in an electrospray and a flame aerosol reactor

  6. Challenges of measuring nascent soot in flames as evidenced by High Resolution Differential Mobility Analysis

  7. Numerical modeling of the performance of high flow DMAs to classify sub-2 nm particles

  8. Solid Nucleation Mode Engine Exhaust Particles Detection at High Temperatures with an Advanced Half Mini DMA 2019-24-0052

  9. Characterization of a high-resolution supercritical differential mobility analyzer at reduced flow rates

  10. Laboratory verification of a new high flow differential mobility particle sizer, and field measurements in Hyytiälä

  11. Transmission of charged nanoparticles through the DMA adverse axial electric field and its improvement 

NanoRanger

  • All in one solution based on the Perez-DMA instrument, operational within 1-300nm

  • Coupled with DuoPole, bipolar electrospray chamber for optimal performance

  • ​Plug and play, only AC power required

  • Now enlisting beta-partners 

  • Contact for quote 

Literature on Perez-DMA

  1. A high resolution differential mobility analyzer for the study of large virus particles

  2. A singularly narrow 29 nm aerosol size standard based on the ΦX174 bacteriophage

  3. Exceeding a resolving power of 50 for virus size determination by Differential Mobility Analysis

  4. Singularly narrow viral size and mobility standards from the 38.3 nm chronic bee paralysis virus and its 17.5 nm satellite

  5. A high resolution DMA covering the 1–67 nm size range

  6. Technical note: Characterization of polystyrene latex spheres 300 nm in diameter with a singularly narrow size distribution

  7. ​Singularly narrow size distributions of 200 nm polystyrene latex spheres determined by high resolution mobility analysis

  8. ​Spontaneous Interconversion between Different Narrowly Defined Shapes of Rotavirus Double-Layered Particles Studied in Real Time by High-Resolution Mobility Analysis

  9. Transfer function and transmission measurements of the Perez differential mobility analyzer (DMA) at moderate sheath flow rates

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NanoRanger with all you need to run it: computer, vial with your sample, AC plug and ambient air.

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