Chemical nanoanalysis scanning electron microscope

More Information

About the Chemical nanoanalysis scanning electron microscope

The Chemical Nanoanalysis Scanning Electron Microscope (CNSEM) facility offers a high resolution field emission SEM, in combination with dual-EDS and correlative Raman spectrometer.

The first EDS detector is suitable for elemental composition analysis, typically between 5 – 30 kV at high throughput mapping.

The second EDS is windowless with element detection down to Li Ka (56 eV) and intended for low energy work <5 keV for superior surface sensitivity.

For the Raman analysis the sample is translated over to a 100x objective lens within the chamber, where the laser spot size is ~360nm, offering sub-micron mapping capability. Raman offers complimentary chemical information to EDS, allowing you to fingerprint polymers, and ordered and disordered structures.

Highlights

imaging resolution down 1 nm - InLensDuo for improved surface sensitive imaging
Oxford Instruments Ultim 170 EDS
Oxford Instruments Extreme 100 EDS
WITec Raman RISE
sample shuttle for air-sensitive sample mounting inside a glovebox
plasma cleaner

Technical specification

Zeiss Sigma 500 VP FESEM

Field Emission Source - 20 nA configuration
Resolution: 0.8nm at 15 kV, 1.4nm at 1 kV
Variable Pressure (VP) using N2 (10 – 133 Pa) : 1.5nm at 30 kV (for uncoated non-conductive samples)
Imaging Detectors:
- SE2
- AsB
- InLensDuo SE & BSE (energy selective)
- C2D for VP mode
80mm Air-lock for sample transfer XEI Evactron E50 Plasma Cleaner
SemiLab air-sensitive sample shuttle (for loading samples inside a glovebox and opening remotely once inside SEM)

Oxford Instruments EDS

Ultim X-Max 170mm²
Ultim Extreme 100mm² windowless
Sub 10nm mapping possible
Aztek Advanced Software
LayerProbe for thin film analysis (layer thickness and composition correction)

WITec Raman RISE

532nm laser diode / 32 mW
100x objective 0.75 NA
600 & 1800 grating
scanning/mapping done by piezo-stage objective
acquisition modes: point spectrum, line scan, mapping (area, depth and 3D)
data processing with Project Five Plus

Expert team

Fill in this form if you'd like to request access to the CNSEM for your project.

Contact telephone number: 02380 593595

If you have a general question, or you'd like more information, email Nikolay Zhelev: [email protected]

Professor Philip Bartlett

Professor of Chemistry

Research interests

Electrochemistry
Bioelectrochemistry
Templated electrodeposition of nanomaterials

Connect with Philip

Email: [email protected]

Professor Nuria Garcia-Araez

Professor

Research interests

Batteries

Connect with Nuria

Email: [email protected]

Professor Andrea Russell

Professor of Physical Electrochemistry

Research interests

Structure/property relationships in electrocatalysts
Development and application of syncrotron based spectroscopic techniques for operando characterisation of electrocatalysts, electrode structures, and electrochemical interfaces
Development and application of vibrational spectroscopies (IR and Raman) to study electrochemical interfaces and reactions

Connect with Andrea

Email: [email protected]