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Phenom Desktop SEM with energy-dispersive X-ray diffraction

The sixth-generation of Thermo Scientific Phenom ProX G6 Desktop SEM fills the gap between light microscopy and floor-model SEM analysis, thus expanding the capabilities of research facilities. It offers fast, high-resolution imaging in addition to an integrated energy-dispersive X-ray diffraction (EDS) detector for robust, easy-to-use, rapid elemental analysis.

Key Features

Fast and easy to use

The Phenom Pro Desktop SEM can be used to relieve the burden of routine analysis for common samples from floor-model SEM instruments. Instrument configuration and the sample loading mechanism ensure quick imaging with minimal time spent tuning between experiments.

Long-lifetime CeB6 source

Facility users of any experience level can quickly begin producing high-quality results with the Phenom Pro Desktop SEM. Its long-lifetime CeB6 source offers high brightness while requiring low maintenance.

Robust and small form factor

It's high stability and small form factor allow the instrument to be used in practically any lab environment; more simply put, it does not require specialized infrastructure or expert oversight.

ChemiSEM Technology

Thermo Scientific ChemiSEM Technology revolutionizes and simplifies EDS analysis by fully integrating SEM and EDS functions into a single, cohesive user interface. Based on live quantification and building on decades of expertise in EDS analysis, the technology provides elemental information quickly and easily, guaranteeing reliable results in less time. ChemiSEM Technology now comes with a powerful new feature: ChemiPhase. ChemiPhase identifies unique phases with a big data approach, finding minor and trace elements while eliminating user bias and reducing possible mistakes.

Learn more


Specifications

Style Sheet for Products Table Specifications
Light optical magnification
  • 27–160x
Electron optical magnification range
  • 160-350,000x
Resolution
  • ≤ 6 nm SED and ≤ 8 nm BSD
Digital zoom
  • Max. 12x
Light optical navigation camera
  • Color
Acceleration voltages
  • Default: 5 kV, 10 kV and 15 kV
  • Advanced mode: adjustable range between 4.8 kV and 20.5 kV imaging and analysis mode
Vacuum modes
  • High vacuum mode
  • Charge reduction mode via optional low vacuum sample holder
Detector
  • Backscattered electron detector (standard)
  • Energy-dispersive X-ray detector (standard)
  • Secondary electron detector (optional)
Sample size
  • Up to 25 mm diameter (optional 32 mm)
Sample height
  • Up to 35 mm (optional 100 mm)
Style Sheet for Komodo Tabs

Resources

Product Development Engineer Luigi Raspolini explains everything that is new on the Thermo Scientific Phenom ProX G6 - The Desktop SEM with EDS capability for robust, effortless, and versatile elemental and SEM analysis. 

Testimonial from Professor Sir Colin Humphreys, University of Cambridge.

Webinar: Phenom Pro(X) G6 Desktop SEM

Watch this webinar to learn about:

  • Ease of use—the versatility and the specifications you can achieve
  • Doing more research—imaging and analysis in under two minutes
  • Fast time to image acquisition—only 30 seconds
  • User interface—24-inch, full-screen SEM image with presets

Webinar: Scanning electron microscopy: selecting the right technology for your needs

This on-demand webinar has been designed to help you decide which SEM best meets your unique needs. We present an overview of Thermo Fisher Scientific SEM technology for multi-user research labs and focus on how these wide-ranging solutions deliver performance, versatility, in situ dynamics and faster time to results. Watch this webinar if you are interested in:

  • How the needs for different microanalysis modalities are met (EDX, EBSD, WDS, CL, etc.).
  • How samples are characterized in their natural state without the need for sample preparation.
  • How new advanced automation allows researchers to save time and increase productivity.

Product Development Engineer Luigi Raspolini explains everything that is new on the Thermo Scientific Phenom ProX G6 - The Desktop SEM with EDS capability for robust, effortless, and versatile elemental and SEM analysis. 

Testimonial from Professor Sir Colin Humphreys, University of Cambridge.

Webinar: Phenom Pro(X) G6 Desktop SEM

Watch this webinar to learn about:

  • Ease of use—the versatility and the specifications you can achieve
  • Doing more research—imaging and analysis in under two minutes
  • Fast time to image acquisition—only 30 seconds
  • User interface—24-inch, full-screen SEM image with presets

Webinar: Scanning electron microscopy: selecting the right technology for your needs

This on-demand webinar has been designed to help you decide which SEM best meets your unique needs. We present an overview of Thermo Fisher Scientific SEM technology for multi-user research labs and focus on how these wide-ranging solutions deliver performance, versatility, in situ dynamics and faster time to results. Watch this webinar if you are interested in:

  • How the needs for different microanalysis modalities are met (EDX, EBSD, WDS, CL, etc.).
  • How samples are characterized in their natural state without the need for sample preparation.
  • How new advanced automation allows researchers to save time and increase productivity.

Applications

Process control using electron microscopy

Process control using electron microscopy

Modern industry demands high throughput with superior quality, a balance that is maintained through robust process control. SEM and TEM tools with dedicated automation software provide rapid, multi-scale information for process monitoring and improvement.

 

Quality control and failure analysis using electron microscopy

Quality control and failure analysis

Quality control and assurance are essential in modern industry. We offer a range of EM and spectroscopy tools for multi-scale and multi-modal analysis of defects, allowing you to make reliable and informed decisions for process control and improvement.

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Fundamental Materials Research

Novel materials are investigated at increasingly smaller scales for maximum control of their physical and chemical properties. Electron microscopy provides researchers with key insight into a wide variety of material characteristics at the micro- to nano-scale.

 

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Semiconductor research and development

Innovation starts with research and development. Learn more about solutions to help you understand innovative structures and materials at the atomic level.

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Semiconductor metrology

Manufacturing today’s complex semiconductors requires exact process controls. Learn more about advanced metrology and analysis solutions to accelerate yield learnings.

Semiconductor Failure Analysis

Semiconductor Failure Analysis

Complex semiconductor device structures result in more places for defects to hide. Learn more about failure analysis solutions to isolate, analyze, and repair defects.

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Semiconductor materials characterization

Many factors impact yield, performance, and reliability. Learn more about solutions to characterize physical, structural, and chemical properties.


Techniques

EDS Elemental Analysis

Thermo Scientific Phenom Elemental Mapping Software provides fast and reliable information on the distribution of chemical elements within a sample.

Learn more ›

3D EDS Tomography

Modern materials research is increasingly reliant on nanoscale analysis in three dimensions. 3D characterization, including compositional data for full chemical and structural context, is possible with 3D EM and energy dispersive X-ray spectroscopy.

Learn more ›

Atomic-Scale Elemental Mapping with EDS

Atomic-resolution EDS provides unparalleled chemical context for materials analysis by differentiating the elemental identity of individual atoms. When combined with high-resolution TEM, it is possible to observe the precise organization of atoms in a sample.

Learn more ›

Imaging Hot Samples

Studying materials in real-world conditions often involves working at high temperatures. The behavior of materials as they recrystallize, melt, deform, or react in the presence of heat can be studied in situ with scanning electron microscopy or DualBeam tools.

Learn more ›

In Situ experimentation

Direct, real-time observation of microstructural changes with electron microscopy is necessary to understand the underlying principles of dynamic processes such as recrystallization, grain growth, and phase transformation during heating, cooling, and wetting.

Learn more ›

Multi-scale analysis

Novel materials must be analyzed at ever higher resolution while retaining the larger context of the sample. Multi-scale analysis allows for the correlation of various imaging tools and modalities such as X-ray microCT, DualBeam, Laser PFIB, SEM and TEM.

Learn more ›

SEM Metrology

Scanning electron microscopy provides accurate and reliable metrology data at nanometer scales. Automated ultra-high-resolution SEM metrology enables faster time-to-yield and time-to-market for memory, logic, and data storage applications.

Learn more ›

Semiconductor Analysis and Imaging

Thermo Fisher Scientific offers scanning electron microscopes for every function of a semiconductor lab, from general imaging tasks to advanced failure analysis techniques requiring precise voltage-contrast measurements.

Learn more ›

EDS Elemental Analysis

Thermo Scientific Phenom Elemental Mapping Software provides fast and reliable information on the distribution of chemical elements within a sample.

Learn more ›

3D EDS Tomography

Modern materials research is increasingly reliant on nanoscale analysis in three dimensions. 3D characterization, including compositional data for full chemical and structural context, is possible with 3D EM and energy dispersive X-ray spectroscopy.

Learn more ›

Atomic-Scale Elemental Mapping with EDS

Atomic-resolution EDS provides unparalleled chemical context for materials analysis by differentiating the elemental identity of individual atoms. When combined with high-resolution TEM, it is possible to observe the precise organization of atoms in a sample.

Learn more ›

Imaging Hot Samples

Studying materials in real-world conditions often involves working at high temperatures. The behavior of materials as they recrystallize, melt, deform, or react in the presence of heat can be studied in situ with scanning electron microscopy or DualBeam tools.

Learn more ›

In Situ experimentation

Direct, real-time observation of microstructural changes with electron microscopy is necessary to understand the underlying principles of dynamic processes such as recrystallization, grain growth, and phase transformation during heating, cooling, and wetting.

Learn more ›

Multi-scale analysis

Novel materials must be analyzed at ever higher resolution while retaining the larger context of the sample. Multi-scale analysis allows for the correlation of various imaging tools and modalities such as X-ray microCT, DualBeam, Laser PFIB, SEM and TEM.

Learn more ›

SEM Metrology

Scanning electron microscopy provides accurate and reliable metrology data at nanometer scales. Automated ultra-high-resolution SEM metrology enables faster time-to-yield and time-to-market for memory, logic, and data storage applications.

Learn more ›

Semiconductor Analysis and Imaging

Thermo Fisher Scientific offers scanning electron microscopes for every function of a semiconductor lab, from general imaging tasks to advanced failure analysis techniques requiring precise voltage-contrast measurements.

Learn more ›

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Contact us

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To ensure optimal system performance, we provide you access to a world-class network of field service experts, technical support, and certified spare parts.

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