Techniques

Delivers clear internal views of complex electronics. Explore

Measures sheet resistance and resistivity accurately. Explore

Maps nanoscale topography and material properties with a sharp probe. Explore

Images atoms and maps composition, bonding, and strain. Explore

Rapid, non-destructive chemical identification. Explore

Measures Auger electrons for high-resolution surface analysis. Explore

Characterizes through-pores in wettable, permeable materials. Explore

Maps bandgap, defects, and strain with SEM correlation. Explore

Fast, non-contact 3D surface measurements. Explore

Quantifies heat flow for material optimization. Explore

Rapid, high-resolution imaging of a sample. Explore

Reveals PCB solder joint cracks & defects. Explore

Quantifies particle size and uniformity in minutes. Explore

Characterizes thermal and mechanical properties of soft materials. Explore

Quantifies elements and isotopes with nanometer depth profiling. Explore

Quantifies elemental composition at the micron scale. Explore

Quick, non-destructive material composition & thickness analysis. Explore

Combines ion milling and electron imaging for nanoscale analysis. Explore

Rapid, non-destructive molecular fingerprinting across materials. Explore

Characterizes porous materials. Explore

Identifies and quantifies small organic molecules in mixtures. Explore

Fast, precise measurements of true volume, density, and porosity. Explore

Separates molecules by size to determine polymer properties. Explore

Sputters surfaces to quantify composition & depth-profile layers. Explore

Measures trace elements with high accuracy. Explore

Quantifies multiple elements at very low concentrations. Explore

Visualizes surface temperatures to reveal defects & hotspots. Explore

Identifies elements in the outermost atomic layer. Explore

Verifies IPC-A-610 quality to reduce defects. Explore

Analyzes particle sizes by measuring light scattering. Explore

Non-destructive 3D imaging of sample surfaces. Explore

Uncovers microstructures and defects causing performance issues. Explore

Measures lateral/frictional force between tip & sample. Explore

Determines mechanical properties including hardness & modulus. Explore

Ultra-high-resolution elemental and isotopic imaging. Explore

Quantifies elements via gamma rays from irradiated samples. Explore

Determines molecular structure, composition, and dynamics. Explore

Provides accurate liquid property analysis for surface tension. Explore

Nanoscale chemical characterization & topography at sub-5nm. Explore

PED is a TEM-based technique that rotates the electron beam for more precise crystallography at the nanoscale. Explore

Measures inelastic photon scattering for chemical identification. Explore

Evaluates material behavior during processing, storage, and use. Explore

Quantifies elemental composition and thin-film thickness. Explore

Locates internal flaws like cracks, voids, and delamination. Explore

Maps charge carrier polarity/distribution in semiconductors. Explore

Images surface topography and composition with electrons. Explore

Provides atomic-scale imaging and spectroscopic mapping. Explore

Maps nanoscale stress and chemistry with 100 nm resolution. Explore

Measures thin-film thickness & optical properties. Explore

Creates precise 3D models without contact or damage. Explore

Quantitative insight into surface energy for adhesion and coatings. Explore

Ratio of sample mass to volume after mechanical tapping. Explore

Measures material behavior under axial stretching (tension). Explore

Measures material mass changes with temperature or time. Explore

Measures material dimension changes with temp, time, or force. Explore

Ultra-sensitive surface analysis with chemical imaging & depth profiling. Explore

TXRF is a surface sensitive elemental analysis technique used to determine the concentration of trace metal contamination on wafer surfaces. Explore

Images atomic structure, defects, interfaces with sub-nm resolution. Explore

Determines work function and valence electronic structure of surfaces. Explore

Measures absorbance, reflectance, and transmittance (175–3300 nm). Explore

Quantitative insight into surface interactions affecting adhesion. Explore

Non-destructive elemental composition & thin-film analysis. Explore

Measures surface topography with sub-nanometer vertical resolution. Explore

Analyzes electronic structure of atoms and molecules. Explore

Non-contact, non-destructive 2D/3D images at micron scale. Explore

Non-destructive analysis of crystal phases, lattice, and strain. Explore

Measures surface elemental composition and chemical states. Explore

Optimized scans tailored to each sample for best measurements. Explore

Electric potential at the slipping plane of the EDL. Explore