Autor: |
M. Hassan Sk, S. Agrawal, M. Woolley, S. M. Clarke, A. Osundare, D. Craske, R. Lindsay, A. Smith, T. Snow, T. Zinn, N. Terrill |
Přispěvatelé: |
Sk, MH [0000-0002-6560-9365], Woolley, M [0009-0003-9234-7246], Clarke, SM [0000-0001-5224-2368], Lindsay, R [0000-0001-5050-669X], Smith, A [0000-0003-3745-7082], Snow, T [0000-0001-7146-6885], Zinn, T [0000-0001-8502-544X], Apollo - University of Cambridge Repository |
Rok vydání: |
2023 |
Předmět: |
|
DOI: |
10.17863/cam.95463 |
Popis: |
Here, we report the design and successful implementation of an ultra-low oxygen sample cell for use on the SAXS-WAXS (small-wide angle x-ray scattering) beamline I22 at DIAMOND. The rigorous exclusion of oxygen is found to require double jacketing with purge gas throughout the entire system, pipework, pumps, and the sample cell itself. This particularly includes a “double-window” arrangement at the sample location to accommodate the very tight geometrical restrictions of the sample position. The in situ cell design also requires the additional complexity of heating the sample/solution and real-time electrochemical measurements. We demonstrate the successful implementation of this arrangement with real-time in situ characterization of an iron foil corrosion evolving under the “ sweet-scale environment,” very anoxic conditions common, in particular, commercial situations. The formation of iron carbonate, siderite, rather than iron oxide, indicates that our system is oxygen free down very low levels ( |
Databáze: |
OpenAIRE |
Externí odkaz: |
|