STEM Microscope | Talos L120C TEM | Thermo Fisher Scientific

Talos L120C G2 Transmission Electron Microscope

The Thermo Scientific Talos L120C G2 (S)TEM is a 20-120 kV thermionic (scanning) transmission electron microscope uniquely designed for performance and productivity. It’s useful across a wide range of samples and applications, such as 2D and 3D imaging of cells, cell organelles, asbestos, polymers, and soft materials, both at ambient and cryogenic temperatures. The Talos L120C allows you to acquire high-quality results with minimal effort, no matter your skill level. Routine 2D imaging of samples is facilitated by a simple and intuitive user interface (UI). By implementing fast and sophisticated automation in advanced 3D imaging workflows with superior TEM and STEM resolution for 20-120 kV instrumentation, it allows you to focus on scientific questions rather than microscope operation.

Explore cellular ultrastructure

Gain insights into elemental composition

Characterize quality attributes of nanoparticles

Visualize 3D intracellular structures

Talos L120C (S)TEM) advantages

The Talos L120C takes imaging to the next level with the optional cryo-box and low-dose techniques, which facilitate imaging of samples preserved at cryogenic temperatures and produce high-quality images even for beam-sensitive materials. The cryo-box provides maximal protection of the cryo-specimen resulting in minimal ice growth contamination over long (>8 h) data collection sessions.

To enhance productivity and application flexibility, especially in multi-user and multi-application environments, the cryo-box is motorized and fully retractable to facilitate seamless switching between cryo-EM imaging, STEM imaging, and EDS analysis. The large pole-piece gap of the C-Twin lens provides high contrast and allows for high specimen tilts up to 90°, while the constant-power objective lens with low-hysteresis allows for straightforward and reproducible changes of imaging modes and high-tension settings in matter of seconds.

Overall, the Talos L120C (S)TEM combines application versatility with a reproducibly performing electron column to give you new opportunities for high-resolution 3D characterization, in situ dynamic observation with EDS and other diffraction applications, and a special emphasis on high-contrast imaging and cryo-TEM.

Talos L120C (S)TEM automation

Designed for multi-user and multi-discipline environments and equipped with a familiar UI shared across all Thermo Scientific TEM platforms, the Talos L120C TEM is ideal for novice and expert users alike. All daily TEM tunings have been automated to provide the best and most reproducible setup, easing the learning curve for novice operators and improving time-to-data for experienced users. The Talos L120C TEM also offers educational online help embedded within the UI. Additionally, Thermo Scientific application software packages facilitate intuitive settings and automated data collection for different use cases and workflows, such as large area 2D imaging, energy dispersive X-ray analysis, single particle analysis, MicroED and tomography.

Talos L120C (S)TEM key features

Versatile multi-application system

Designed for routine TEM and STEM imaging and characterization of a variety of samples, including resin embedded cells, soft materials, nanoparticles, and protein complexes at ambient and cryo-conditions.

High quality images

High-contrast, high-quality TEM and STEM imaging by simultaneous, multiple signal detection with up to four-channel-integration STEM detectors.

Cryo-imaging

Retractable, motorized cryo-box and low-dose technique enable superior imaging of samples at cryogenic temperatures while preserving the possibility of STEM imaging and EDS analysis applications.

Chemical composition data

Flexible energy-dispersive X-ray spectroscopy (EDS) analysis for chemical information.

Space for more

Add tomography or in situ sample holders compatible with a large analytical pole piece gap allowing up to ±90° stage tilt range and ±375 µm stage height range.

Improved productivity and reproducibility

Ultra-stable column, SmartCam remote operation, and constant power objective lenses for quick mode and high-tension switches. Fast, easy switching for multi-user environments.

Auto-alignments

All daily TEM tunings—such as focus, Eucentric height, center beam shift, center condenser aperture, and rotation center—are automated.

Automated data collection

Automate single particle analysis imaging with Thermo Scientific EPU Software and tomography with Thermo Scientific Tomo 5 Software. Collect large area 2D images at different image resolutions using Thermo Scientific Maps Software with automatic image acquisition and stitching while documenting the overall context and entire area of the region of interest with exceptional quality.

Ceta CMOS Camera

The 4K × 4K Thermo Scientific Ceta CMOS Camera with large field of view enables live digital zooming with high sensitivity and high speed over the entire high-tension range. Specialized Ceta Cameras are available for low-dose imaging (Ceta-S and Ceta-F) and for MicroED (Ceta-D) applications.

Compact design

Smaller footprint and dimensions mean this tool can be accommodated into more challenging spaces while reducing infrastructure and support costs.

Specifications

TEM line resolution	0.204 nm
TEM point resolution	< 0.37 nm
STEM HAADF resolution	≤ 1.0 (with LaB₆)
TEM magnification range	Standard: 25–650k × Enhanced: 35–910k ×
STEM magnification range	200–2.2M
Maximum tilt angle (stage)	±90°

Resources

Life Sciences images
Materials Science images

2D thin section of positively stained muscle tissue. Magnification = 17,500x.

Cryo TEM (STEM) image of yeast cell cross-section.

STEM thick-section image of yeast cells; sample courtesy of Wanda Kukulski, MRC LMB Cambridge, UK. Magnification = 35,000x.

Negative stain image of DNA origami particles; sample courtesy of Thomas Martin, MRC LMB Cambridge. Magnification = 57,000x.

Gold particles on Si₃N₄. Resolution < 1.0 nm.

High-resolution TEM Gold [100] and FFT.

Low-voltage TEM image showing morphology of a block copolymer. Sample courtesy of Kevin Jack and Idriss Blakey, The University of Queensland.

Life Sciences images

2D thin section of positively stained muscle tissue. Magnification = 17,500x.

STEM thick-section image of yeast cells; sample courtesy of Wanda Kukulski, MRC LMB Cambridge, UK. Magnification = 35,000x.

Negative stain image of DNA origami particles; sample courtesy of Thomas Martin, MRC LMB Cambridge. Magnification = 57,000x.

Materials Science images

Gold particles on Si₃N₄. Resolution < 1.0 nm.

High-resolution TEM Gold [100] and FFT.

Low-voltage TEM image showing morphology of a block copolymer. Sample courtesy of Kevin Jack and Idriss Blakey, The University of Queensland.

Applications

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Investigación sobre enfermedades infecciosas

Las técnicas de criomicroscopía electrónica permiten observaciones multiescala de estructuras biológicas 3D en sus estados casi nativos, haciendo que la información obtenida sea más rápida y el desarrollo de tratamientos más eficaz.

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Investigación sobre biología estructural

La criomicroscopía electrónica permite el análisis estructural de dianas biológicas difíciles, como grandes complejos, especies flexibles y proteínas de membrana.

Descubrimiento de fármacos

Descubra cómo aprovechar el diseño racional de fármacos para muchas más clases de fármacos principales, lo que conduce a los mejores medicamentos del sector.

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Investigación sobre biología de plantas

La investigación fundamental de la biología de las plantas se hace posible mediante la criomicroscopía electrónica, que proporciona información sobre proteínas (con análisis de partículas individuales), a su contexto celular (con tomografía), hasta la estructura general de la planta (análisis de grandes volúmenes).

Investigación sobre patologías

La microscopía electrónica de transmisión (TEM) se utiliza cuando la naturaleza de la enfermedad no puede establecerse mediante métodos alternativos. Con las imágenes nano-biológicas, TEM proporciona información precisa y fiable para ciertas patologías.

Control de calidad

El control y garantía de calidad son esenciales en la industria moderna. Ofrecemos una gama de herramientas de EM y espectroscopía para el análisis multiescala y multimodal de defectos, lo que le permite tomar decisiones fiables e informadas para el control y la mejora de procesos.

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Investigación sobre materiales fundamentales

Se investigan nuevos materiales a escalas cada vez más pequeñas para lograr el máximo control de sus propiedades físicas y químicas. La microscopía electrónica proporciona a los investigadores información clave sobre una amplia variedad de características materiales a escala nanométrica.

Control de proceso

La industria moderna exige un alto rendimiento con una calidad superior, un equilibrio que se mantiene a través de un control de procesos sólido. Las herramientas SEM y TEM con software de automatización exclusivo proporcionan información rápida y multiescala para la supervisión y la mejora de procesos.

Techniques

Life Sciences techniques

2D TEM and STEM imaging

2D imaging using either the TEM or STEM techniques provides fast visualization of samples, such as resin embedded sections of physiological samples in pathology or purified nanoparticles and macromolecular assemblies. Imaging of large sample areas is possible using full automation of batch imaging of multiple regions of interest at different magnifications in MAPS software.

Particle characterization

Imaging of nanoparticles by negative stain TEM or cryo-TEM facilitates detailed characterization of samples in process development at the nanometer resolution range. The number of critical quality attributes can then be accurately assessed, such as particle size distribution, morphology, empty/full classification, or particle aggregation.

Análisis de partículas individuales

El análisis de partículas individuales (SPA) es una técnica de microscopía crioelectrónica que permite la caracterización estructural en resoluciones casi atómicas, descubriendo procesos biológicos dinámicos y la estructura de complejos/conjuntos biomoleculares.

Transmission Electron Microscopes

Talos L120C G2 (S)TEM

Versatile TEM and STEM microscope for 2D and 3D visualization of beam sensitive samples and materials using high contrast.

Talos L120C G2 Transmission Electron Microscope

Talos L120C (S)TEM) advantages

Talos L120C (S)TEM automation

Talos L120C (S)TEM key features

Versatile multi-application system

High quality images

Cryo-imaging

Chemical composition data

Space for more

Improved productivity and reproducibility

Auto-alignments

Automated data collection

Ceta CMOS Camera

Compact design

2D TEM and STEM imaging

Particle characterization

Análisis de partículas individuales

3D TEM and STEM tomography

Criotomografía

MicroED

2D TEM and STEM imaging

Particle characterization

Análisis de partículas individuales

3D TEM and STEM tomography

Criotomografía

MicroED

Espectroscopia de energía dispersiva

Tomografía EDS en 3D

Análisis elemental EDS

Asignación elemental a escala atómica con EDS

Experimentación in situ

Análisis de partículas

Análisis de escala múltiple

Flujo de trabajo de partículas automatizado

Espectroscopia de energía dispersiva

Tomografía EDS en 3D

Análisis elemental EDS

Asignación elemental a escala atómica con EDS

Experimentación in situ

Análisis de partículas

Análisis de escala múltiple

Flujo de trabajo de partículas automatizado

Servicios de microscopía electrónica

Recursos y asistencia para la microscopía electrónica