28. Which property is measured with a scanning probe microscope?
A. Magnetism
B. Electric resistance
C. Light absorption
D. All of the above
Scanning probe microscopes (SPMs) excel at nanoscale surface characterization beyond optical limits. The correct answer is A. Magnetism.
Question Context
This GATE-style MCQ assesses SPM capabilities in nanotechnology and biophysics. SPMs (e.g., AFM, STM) use a sharp probe tip scanning via piezoelectric actuators for atomic resolution (~0.1 nm). They detect tip-sample interactions like forces, currents, or fields—not photons directly.
Option Analysis
A. Magnetism
SPMs measure magnetic properties via specialized modes. Magnetic Force Microscopy (MFM) detects stray fields from magnetic domains using a magnetized tip oscillating above the sample. This maps domain walls in materials like hard drives or biological magnets (magnetotactic bacteria). Directly measures magnetic force gradients.
B. Electric Resistance
Conductive SPM variants quantify resistance. Scanning Tunneling Microscopy (STM) measures tunneling current (I) vs. bias voltage (V), yielding local resistance (R = V/I) at ~1 nm scale. Conductive AFM (C-AFM) probes current-voltage curves for resistivity mapping in semiconductors or biomolecules. Standard SPM electrical mode.
C. Light Absorption
SPMs do not measure light absorption, which requires optical spectroscopy (e.g., UV-Vis). They operate via mechanical/electrical tip interactions in ambient/light-tight conditions. Tip-Enhanced Raman Spectroscopy (TERS) uses SPM tips to enhance local Raman signals indirectly related to absorption, but the primary property is vibrational spectra—not absorption itself.
D. All of the Above
Incorrect as light absorption (C) falls outside core SPM modalities. SPMs cover mechanical (topography, elasticity), electrical (conductivity, capacitance), thermal, and magnetic properties, but optical absorption needs separate spectrometers.
Correct Choice: A. Magnetism
While SPMs measure diverse nanoscale properties (magnetism via MFM, resistance via STM/C-AFM), the question implies a hallmark or primary property. Magnetism exemplifies SPM’s extension to non-contact force detection, distinguishing it from purely topographic tools. For GATE, recognize SPM versatility but precise mode-specificity.
SPM Applications in Life Sciences
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Biology: Map protein conformations, DNA origami conductivity, membrane elasticity.
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Modes Comparison:
| Mode | Property Measured | Resolution | Sample Type |
|---|---|---|---|
| AFM | Topography/Force | 0.1 nm | Any |
| STM | Conductivity | Atomic | Conductive |
| MFM | Magnetism | 10-50 nm | Magnetic |
| C-AFM | Resistance | 1-10 nm | Surfaces |
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Advantages: Ambient operation, no vacuum/staining.
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Limitations: Surface-only; slow scanning.
Master SPM for competitive exams—focus on modes and interactions for PYQs.
