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- “Combustion always produces carbon dioxide and water”: a discussion of university chemistry students' use of rules in place of principles. Amy D. Robertson, Peter S. Shaffer
, Chem. Educ. Res. Pract.
, 2014
, 15
, 763
- Characterization of physicochemical properties of beryllium aerosols associated with prevalence of chronic beryllium disease. Aleksandr B. Stefaniak, Mark D. Hoover, Gregory A. Day, Robert M. Dickerson, Eric J. Peterson, Michael S. Kent, Christine R. Schuler, Patrick N. Breysse, Ronald C. Scripsick
, J. Environ. Monit.
, 2004
, 6
, 523
- Efficacy of surface sampling methods for different types of beryllium compounds. A. Dufresne, T. Mocanu, S. Viau, G. Perrault, C. Dion
, J. Environ. Monit.
, 2011
, 13
, 74
- Adsorption of water and carbon dioxide on beryllium oxide. W. I. Stuart, T. L. Whateley
, Trans. Faraday Soc.
, 1965
, 61
, 2763
- Effect of low-temperature oxidation and heat treatment under vacuum on the Al–Be interdiffusion process. Aidar U. Gaisin, Elena O. Filatova
, Phys. Chem. Chem. Phys.
, 2024
, 26
, 780
- Solvation effects and stabilization of multicharged ions: a case study of Ar
m
BeO
q+ complexes. Roberto Linguerri, Najia Komiha, Majdi Hochlaf
, Phys. Chem. Chem. Phys.
, 2012
, 14
, 4236
- The determination of oxygen in beryllium by the vacuum fusion method on a micro scale. With a note on the determination of oxygen in zirconium. J. N. Gregory, D. Mapper
, Analyst
, 1955
, 80
, 230
- The determination of water in beryllium oxide. L. E. Smythe, T. L. Whateley
, Analyst
, 1966
, 91
, 285
- Notes. A. J. Cavell, P. I. Brewer
, Analyst
, 1952
, 77
, 537
- CLXVI.—The solubility of beryllium oxide in solutions of its salts. Nevil V. Sidgwick, Neil B. Lewis
, J. Chem. Soc.
, 1926
, 129
, 1287