Environmental Scanning Electron Microscope

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The Thermo Scientific Prisma E Scanning Electron Microscope (SEM) combines a wide array of imaging and analytical modalities with advanced automation to offer the most complete solution of any instrument in its class. It is ideal for industrial research and development, quality control, and failure analysis applications that require high resolution, sample flexibility and an easy-to-use operator interface. The Prisma E SEM succeeds the highly successful Thermo Scientific Quanta SEM.

ESEM with EDS

The unique combination of accessible all-round performance, a large set of accessories, and the most intuitive elemental analysis with Thermo Scientific ColorSEM make the Prisma E SEM the go-to SEM for micro-scale imaging and analysis in any industry or field.

Prisma E Scanning Electron Microscope features

Elemental information at your fingertips

Live composition-based image coloring for intuitive elemental analysis with optional ChemiSEM Technology and integrated energy-dispersive X-ray spectroscopy (EDS). Speed up your work and obtain the most complete sample information with always-on analysis.

Excellent image quality

Excellent image quality at low kV and low vacuum thanks to flexible vacuum modes, including through-the-lens differential pumping. Simultaneous secondary electron (SE) and backscattered electron (BSE) imaging in every mode of operation.

Minimize sample preparation time

Low vacuum and ESEM capability enable charge-free imaging and analysis of nonconductive and/or hydrated specimens.

In-situ study of materials in their natural state

With the Prisma E SEM's environmental SEM (ESEM) mode, samples can be imaged even if they are hot, dirty, outgassing or wet.

Excellent analytical capabilities

Excellent analytical capabilities with a chamber that allows 3 simultaneous EDS detectors, EDS ports that are 180° opposite, wavelength-dispersive spectroscopy (WDS), coplanar EDS/EBSD and high-quality charge-free EDS and EBSD in low vacuum.

Easy to use

Easy to use, intuitive software with user guidance and undo functionality makes highly effective operation possible for novice users, while enabling experts to do their work faster and with fewer mouse clicks.

Prisma E Scanning Electron Microscope specifications

Style Sheet for Products Table Specifications

Resolution	3.0 nm at 30 kV in high vacuum, low vacuum and ESEM 7.0 nm at 3 kV (BSED, beam decel.)
Standard detectors	ETD, low-vacuum SED (LVD), gaseous SED for ESEM mode (GSED), IR camera
Optional detectors	Thermo Scientific Nav-Cam+ Camera, DBS, DBS-GAD, ESEM-GAD, STEM 3+, WetSTEM, RGB-CLD, EDS, EBSD, WDS, Raman, EBIC, etc.
ChemiSEM Technology (optional)	Live quantitative SEM image coloring is available based on energy-dispersive X-ray spectroscopy (EDS). Point & ID, linescan, region, element maps and accurate Noran quantification are included.
Stage bias (beam deceleration, optional)	-4,000 V to +50 V
Low vacuum mode	Up to 2,600 Pa (H₂O) or 4,000 Pa (N₂)
Stage	5-axis motorized eucentric stage, 110 x 110 mm² with a 105° tilt range. Maximum sample weight: 5 kg in un-tilted position.
Standard sample holder	Standard multi-sample SEM holder uniquely mounts directly onto the stage, hosts up to 18 standard stubs (⌀ 12 mm), does not require tools to mount a sample
Chamber	340 mm inside width, 12 ports, three simultaneous EDS detectors possible, two at 180°, coplanar EDS/EBSD orthogonal to the tilt axis of the stage
In situ accessories (optional)	Software controlled -20°C to +60°C Peltier cold stage Software controlled 1,000°C low vacuum/ESEM heating stage Software controlled 1,100°C high vacuum heating stage Software controlled 1,400°C low vacuum/ESEM heating stage Integrated gas injection: up to 2 units (other accessories may limit number of gas injection systems (GIS) available) for beam-induced deposition of the following materials: Platinum Tungsten Carbon Manipulators Cryo-stage Electrical probing / multi-probing stations
Software options	Thermo Scientific Maps Software for automatic large area acquisition using tiling and stitching; correlative work Thermo Scientific AutoScript 4 Software; a Python-based application programming interface Pattern generation software TopoMaps Software for image colorization, image analysis and 3D surface reconstruction

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Resources

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.

Goldrush. This mixture of particles contains gold (large area on the left), copper (smallest particles) and a Al/Si/Mg alloy (the bigger particles). The mixture is heated to higher and higher temperatures. At a certain point, gold starts diffusing across the metal surfaces, thereby completely changing their appearance. The experiment is performed using the High Vacuum Heating Stage mounted on a Prisma E SEM.

Ceramic-glass composite imaged with Prisma E SEM.

Ceramic-glass composite imaged with the Prisma E SEM.

Chlorite-lined pores imaged with Prisma E SEM.

Chlorite-lined pores imaged with the Prisma E SEM.

CRT phosphors imaged with the Prisma E SEM.

Dyneema fibers imaged with Prisma E SEM.

Dyneema fibers imaged with the Prisma E SEM.

Malachite imaged with the Prisma E SEM.

Lithium ion battery cathode imaged with Prisma E SEM.

Lithium ion battery cathode imaged with the Prisma E SEM.

Fiber-reinforced polymer imaged at 15 kV and 70 Pa chamber pressure.

Steel inclusion imaged with Prisma E SEM.

An inclusion in steel imaged with the Prisma E SEM.

Slag sample imaged with the Prisma E SEM.

Optical navigation camera image showing the multi-purpose sample holder. In the Prisma E SEM user interface, point-and-click navigation brings you straight to the region of interest.

Pollen is imaged in a hydrated state using the Prisma E SEM environmental mode (ESEM).

Webinar

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

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.

Videos

Images

Ceramic-glass composite imaged with the Prisma E SEM.

Chlorite-lined pores imaged with the Prisma E SEM.

CRT phosphors imaged with the Prisma E SEM.

Dyneema fibers imaged with the Prisma E SEM.

Malachite imaged with the Prisma E SEM.

Lithium ion battery cathode imaged with the Prisma E SEM.

Fiber-reinforced polymer imaged at 15 kV and 70 Pa chamber pressure.

An inclusion in steel imaged with the Prisma E SEM.

Slag sample imaged with the Prisma E SEM.

Optical navigation camera image showing the multi-purpose sample holder. In the Prisma E SEM user interface, point-and-click navigation brings you straight to the region of interest.

Pollen is imaged in a hydrated state using the Prisma E SEM environmental mode (ESEM).

Applications

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

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.

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.

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.

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

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

Semiconductor materials characterization

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

Techniques

EDS Analysis with ChemiSEM Technology

Energy dispersive X-ray spectroscopy for materials characterization.

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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.

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Environmental SEM (ESEM)

Environmental SEM allows materials to be imaged in their native state. This is ideally suited for academic and industrial researchers who need to test and analyze samples that are wet, dirty, reactive, outgassing or otherwise not vacuum compatible.

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Particle analysis

Particle analysis plays a vital role in nanomaterials research and quality control. The nanometer-scale resolution and superior imaging of electron microscopy can be combined with specialized software for rapid characterization of powders and particles.

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Cathodoluminescence

Cathodoluminescence (CL) describes the emission of light from a material when it is excited by an electron beam. This signal, captured by a specialized CL detector, carries information on the sample’s composition, crystal defects, or photonic properties.

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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.

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ChemiSEM

EDS Analysis with ChemiSEM Technology

Energy dispersive X-ray spectroscopy for materials characterization.

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Imaging Hot Samples

Imaging Hot Samples

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Environmental SEM

Environmental SEM (ESEM)

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Particle Analysis

Particle analysis

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Cathodoluminescence

Cathodoluminescence

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Semiconductor Analysis and Imaging

Semiconductor Analysis and Imaging

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Documents

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Electron microscopy services

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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Electron microscopy support and resources

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Scanning Electron Microscopes

Prisma E SEM

Scanning electron microscope for industrial research and development with environmental scanning electron microscope capability.