
Kinetic model for the sonochemical degradation of monocyclic aromatic compounds is aqueous solution.
- Author
- A DEVISSCHER, P VANEENOO, David Drijvers and Herman Van Langenhove (UGent)
- Organization
Citation
Please use this url to cite or link to this publication: http://hdl.handle.net/1854/LU-189098
- MLA
- DEVISSCHER, A., et al. “Kinetic Model for the Sonochemical Degradation of Monocyclic Aromatic Compounds Is Aqueous Solution.” JOURNAL OF PHYSICAL CHEMISTRY, vol. 100, no. 28, 1996, pp. 11636–42.
- APA
- DEVISSCHER, A., VANEENOO, P., Drijvers, D., & Van Langenhove, H. (1996). Kinetic model for the sonochemical degradation of monocyclic aromatic compounds is aqueous solution. JOURNAL OF PHYSICAL CHEMISTRY, 100(28), 11636–11642.
- Chicago author-date
- DEVISSCHER, A, P VANEENOO, David Drijvers, and Herman Van Langenhove. 1996. “Kinetic Model for the Sonochemical Degradation of Monocyclic Aromatic Compounds Is Aqueous Solution.” JOURNAL OF PHYSICAL CHEMISTRY 100 (28): 11636–42.
- Chicago author-date (all authors)
- DEVISSCHER, A, P VANEENOO, David Drijvers, and Herman Van Langenhove. 1996. “Kinetic Model for the Sonochemical Degradation of Monocyclic Aromatic Compounds Is Aqueous Solution.” JOURNAL OF PHYSICAL CHEMISTRY 100 (28): 11636–11642.
- Vancouver
- 1.DEVISSCHER A, VANEENOO P, Drijvers D, Van Langenhove H. Kinetic model for the sonochemical degradation of monocyclic aromatic compounds is aqueous solution. JOURNAL OF PHYSICAL CHEMISTRY. 1996;100(28):11636–42.
- IEEE
- [1]A. DEVISSCHER, P. VANEENOO, D. Drijvers, and H. Van Langenhove, “Kinetic model for the sonochemical degradation of monocyclic aromatic compounds is aqueous solution.,” JOURNAL OF PHYSICAL CHEMISTRY, vol. 100, no. 28, pp. 11636–11642, 1996.
@article{189098, author = {{DEVISSCHER, A and VANEENOO, P and Drijvers, David and Van Langenhove, Herman}}, issn = {{0022-3654}}, journal = {{JOURNAL OF PHYSICAL CHEMISTRY}}, language = {{eng}}, number = {{28}}, pages = {{11636--11642}}, title = {{Kinetic model for the sonochemical degradation of monocyclic aromatic compounds is aqueous solution.}}, volume = {{100}}, year = {{1996}}, }