Nano-Observer
Scanning Probe Microscopies are key enabling techniques in Nanoscience and Nanotechnology, supporting a wide range of multidisciplinary activities. The LMA hosts various multipurpose AFM/STM heads that cover a broad range of applications under near ambient conditions.
The Nano-Observer AFM from CSInstruments offers high-quality imaging in contact, intermittent contact and dynamic modes. The intermittent contact mode was developed for the scan of very soft samples where tip-sample contact is required. A specially designed Resiscope™ Preamplifier allows to measure local surface resistance over a range of 10 decades dynamically on-the-fly during conductive-AFM scans. For optically active materials like photo voltaic semiconductors the AFM’s laser can be controlled intermittently during critical measurements. All those features can be combined. The instrument is suspended in a vibration isolating cabinet allowing the operation at very low noises. A rather open design allows the sample stage to receive big samples up to 5 x 5 cm². Several AFM modes for complementary surface characterization are offered as listed below.
Key features:
- Intermittent contact mode for very soft samples;
- Resiscope™ for samples with strong variation of surface resistivity;
- Laser control for light-sensitive materials;
- Reception of big samples
- WHAT KIND OF INFORMATION CAN BE OBTAINED WITH THESE INSTRUMENTS?
- SAMPLE REQUIREMENTS
- TECHNICAL SPECIFICATIONS
The sample should be immobilized onto a flat substrate (for instance, biomolecules should be immobilized onto a mica surface via adsorption or via a covalent procedure).
The sample should exhibit a lower roughness than the range of the piezo scanner.
The size of the sample should be small enough to fit inside the microscope less than 5 x 5 cm² in surface and 0.5 cm in thickness.
Types of samples that can be studied with the environmental SPMs include:
- Biological samples (DNA, proteins and peptides; cells, viruses and bacteria; biological tissues, etc.).
- Organic and inorganic thin films.
- Gels and Polymers.
- Nanoparticles and nanomaterials.
- Sensors characterization; metrology.
- Environment: Air
- Temperature Range: Room temperature
- Scanner: 100 µm(X) x 100 µm(Y) x 15 µm(Z)
Images courtesy of CSI – Concept Scientific Instruments
Fig 1: Carbon Fibers in epoxy, Force modulation mode, 30µm
Fig 2: Blood, oscillating mode 80µm
Fig 3: Collagens, oscillating mode, 1.2µm
Fig 4: DNA, oscillating mode, 800nm
Fig 5: Stainless steel, resiscope mode, 1µm
Fig 6: Stainless, MFM mode, 18µm
Fig 7: Magnetic triangles structures, MFM mode, 4.5µm
Fig 8: Nanotube on ITO, Soft ResiScope mode, 6µm