Last updated 22 February 2021
Small-angle X-ray scattering (SAXS) is a well-established characterization method for microstructure investigations in various materials. It probes electron density differences to give information about structural inhomogeneities from the near atomic scale (1 nm) to the micron scale (1,000 nm). The method involves measuring the scattered X-ray intensity as a function of (typically small) scattering angles and is generally performed in transmission. SAXS is used to characterize the size scale of inhomogeneities (e.g. pores, inclusions, second phase regions) in polymer blends, micro-emulsions, geological materials, bones, cements, and ceramics.
Instrumentation
SAXS measurements is performed at Beamline 1-5. Available sample environments for Transmission SAXS/WAXS include a temperature-controllable transmission stage, single capillary holder, and multiple capillary holder. For grazing incidence measurements (GISAXS/WAXS) there is also a goniometer stage with vacuum chuck.
Additionally, if you have your own sample environment you wish to bring to the beamline, a multi-purpose X-Y positioner exists to be adapted to hold and position most sample environments brought by the experimenter (e.g. electrochemical cell; humidity chamber; multi-sample oven, etc). Contact staff to arrange for integration at the beamline.
Data Handling
- Data Acquisition: Uses SPEC running on a CentOS Linux OS control computer, which controls the shutter, all sample motors, a temperature controller and also the detector via an additional Linux-based PC over a local-area network. Data is stored on the file server: specxfs.slac.stanford.edu and be accessed remotely using secure ftp.
- Data Reduction: Uses in-house macros to collapse 2d X-ray images to 1d profiles either radially, I(q) vs q, or azimuthally, I(Φ) vs Φ), or collapse GISAXS images rectangularly in both I(qxy) vs qxy and I(qz) vs qz. For general operation of the beamline, see the BL1-5 cheat sheet.
- Data Analysis: In general SAXS analysis is model dependent, and will, in general, depend on the material under investigation (e.g., degree of order, nature of the inhomogeneities, concentration of the inhomogeneities). We have developed a novel method of analyzing SAXS data from random or suitably disordered two-phase materials [Hedstrom]. A data analysis station runs the small angle scattering analysis tool Irena.
Example Material Science Research at BL1-5:
- Counterion Condensation in Nafion
- Phase Behavior of Polystyrene-block-poly(2-vinylpyridine) Copolymers in a Selective Ionic Liquid Solvent
- Hydrophobic Surfactant Proteins Induce a Phosphatidylethanolamine to Form Cubic Phases
- Structure and Mechanism of Strength Enhancement in Interpenetrating Polymer Network Hydrogels
- How Nanoparticles Coalesce: An in Situ Study of Au Nanoparticle Aggregation and Grain Growth
- Age-related transparent root dentin: mineral concentration, crystallite size, and mechanical properties
For more information, contact Chris Tassone. See deadlines to submit proposals and beam time requests.
