LabRAM Soleil Nano
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Real-time and Direct Correlative Nanoscopy
Fully integrated system based on our OmegaScope scanning probe microscope and LabRAM Soleil Raman microscope. LabRAM Soleil Nano offers unprecedented capabilities for direct co-localized AFM-Raman and photoluminescence measurements. AFM imaging modes (topographic, electrical, mechanical, etc.) and Raman acquisition can be performed either sequentially or simultaneously at the same location of the sample surface. Optical nano-resolution is also achievable with Tip-Enhanced Raman Spectroscopy and Photoluminescence (TERS/ TEPL). LabRAM Soleil Nano is compatible with the environmental chamber for AFM and Raman measurements in controlled atmosphere and at low temperatures.
Features
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Multi-sample analysis platform
Macro, micro and nano scale measurements can be performed on the same AFM-Raman platform. -
Multi-technique / Multi-environment
Numerous SPM (scanning probe microscopy) modes including AFM, force curves measurements, conductive and electrical modes (cAFM, KPFM), STM, liquid cell and electrochemical environment, together with chemical mapping through TERS/TEPL. Full control of the acquisition through one workstation and a powerful software control. SPM and Raman/PL microscope can be operated simultaneously or independently. Compatible with the AFM chamber for environmental control, humidity control and cooling sample holder. -
Robustness / Stability
High resonance frequency AFM scanners. High performance is obtained without active vibration isolation. -
Ease-of-use
Fully automated operation, start measuring within minutes, not hours! -
High collection efficiency
Top-down and oblique Raman/PL detection with high numerical aperture objectives for optimum resolution and throughput in both co-localized and tip-enhanced measurements (Raman and Photoluminescence). -
High throughput multimodal UV-VIS-NIR achromatic platform
Designed for Raman, Photoluminescence, Electroluminescence and more. Up to 4 internal lasers and 6 different filters; 4-grating turret. -
High spatial resolution
Nanoscale spectroscopic resolution (down to 10 nm) through Tip-Enhanced Optical Spectroscopies (TERS: Tip-Enhanced Raman Spectroscopy, and TEP: Tip-Enhanced Photoluminescence). -
Super-low cut-off frequency
down to 30 cm-1 with high throughput -
Ultrafast Raman imaging
Ultrafast Raman imaging
SPM Measuring Modes
Contact AFM in air/(liquid optional); Semicontact AFM in air/(liquid optional); Non -contact AFM; Phase imaging; Lateral Force Microscopy (LFM); Force Modulation; Conductive AFM (optional); Magnetic Force Microscopy (MFM); Kelvin Probe (Surface Potential Microscopy, SKM, KPFM); Capacitance and Electric Force Microscopy (EFM); Force curve measurement; Piezo Response Force Microscopy (PFM); Nanolithography; Nanomanipulation; STM (optional); Photocurrent Mapping (optional); Volt-ampere characteristic measurements (optional)
Spectroscopy Modes
Confocal Raman, Fluorescence and Photoluminescence imaging and spectroscopy
Tip-Enhanced Raman Spectroscopy (TERS) & Tip-Enhanced Photoluminescence (TEPL) in AFM, STM, and shear force modes
Near-field Optical Scanning Microscopy and Spectroscopy (NSOM/SNOM)
Options
- Conductive Unit: Current range 100fA ÷ 10uA / 3 current ranges (1nA, 100nA and 10 µA) switchable from the software
- Liquid Cell / Electrochemical Cell
- Temperature control for liquid cell: Heating up to 60°C
- Environmental Chamber
- Humidity control system: Relative humidity range 10-85% / Relative humidity stability ±1%
- Heating Cooling module: From -50°C to +100°C
- Heating module: heating up to 300°C / Temperature stability 0.1°C, or heating up to 150°C / Temperature stability 0.01°C
- Combined Shear-force and Normal force tuning fork holder
- STM holder
- Signal Access Module
Specifications
| SmartSPM Scanner and Base | |
|---|---|
| Sample scanning range | 100 µm x 100 µm x 15 µm (±10 %) |
| Scanning type by sample | Scanning type by sample |
| Noise | 0.1 nm RMS in XY dimension in 200 Hz bandwidth with capacitance sensors on; 0.02 nm RMS in XY dimension in 100 Hz bandwidth with capacitance sensors off; < 0.04 nm RMS Z capacitance sensor in 1000 Hz bandwidth |
| Resonance frequency | XY: 7 kHz (unloaded); Z: 15 kHz (unloaded) |
| X, Y, Z movement | Digital closed loop control for X, Y, Z axes; Motorized Z approach range 18 mm |
| Sample size | Sample size |
| Sample positioning | Motorized sample positioning range 5 x 5 mm |
| Positioning resolution | 1 µm |
| AFM Head | |
| Laser wavelength | 1300 nm, non-interfering with spectroscopic detector |
| Registration system noise | Registration system noise |
| Alignment | Fully automated cantilever and photodiode alignment |
| Probe access | Probe access |
Spectrometer
Wavelength range :
UV-VIS-NIR; Broadband high throughput achromatic mirror-based system, optimized from 300 nm to 1600 nm without changing optics
Built-in lasers: Up to 4 Solid-state lasers, NUV to NIR wavelengths available.
External lasers: Unlimited, for large gas and ultrafast lasers typically.
Spectrometer scanning speed: Up to 400 nm/s, with 600g/mm grating, mounted on standard 4-grating turret.
Number of gratings: unlimited; 4-grating exchangeable motorized turret
Fast Imaging: <1ms/spectrum SWIFT, SWIFT XS EMCCD, SWIFT repetitive, SWIFT eXtended Range and SmartSampling for ultrafast imaging
Standard wavenumber cut-off: 30 cm-1, with edge filters for 532, 638 and 785 nm wavelengths, injection rejection, >99% transmission.
Software
Integrated software package including full featured SPM, spectrometer and data acquisition control, spectroscopic and SPM data analysis and processing suite, including spectral fitting, deconvolution and filtering, optional modules include univariate and multivariate analysis suite (PCA, MCR, HCA, DCA), particle detection and spectral search functionalities.
Integrated software package including full featured SPM, spectrometer and data acquisition control, spectroscopic and SPM data analysis and processing suite, including spectral fitting, deconvolution and filtering, optional modules include univariate and multivariate analysis suite (PCA, MCR, HCA, DCA), particle detection and spectral search functionalities.
Applications
