| Environmental Science & Technology 1997 Walter J. Weber Jr. |
| Title | Subject | Authors |
|---|
| A distributed reactivity model for sorption by soils and sediments. 10. relationships between desorption, hysteresis, and the chemical characteristics of organic domains. | Science and technology | Weilin Huang, Walter J. Weber Jr. |
| Enthalpy and polarity effects on desorption under supercritical fluid conditions.(A Distributed Reactivity Model for Sorption by Soils and Sediments, 7) | Science and technology | Walter J. Weber Jr., Thomas M. Young |
| Mechanistic implications of desorption under superficial fluid conditions.(A Distributed Reactivity Model for Sorption by Soils and Sediments, part 6) | Science and technology | Walter J. Weber Jr., Thomas M. Young |
| Sequestration of hydrophobic organic contaminants by geosorbents. | Science and technology | Mark L. Brusseau, Philip M. Gschwend, George R. Aiken, Martin Reinhard, John C. Westall, Joseph J. Pignatello, Walter J. Weber Jr., Samuel J. Traina, Scott D. Cunningham, Richard Luthy |
| Sorbent organic domains: discovery of a humic acid glass transition and an argument for a polymer-based model.(A Distributed Reactivity Model for Sorption by Soils and Sediments, part 8) | Science and technology | Eugene J. Leboeuf, Walter J. Weber Jr. |
| The isosteric heat approach and its application to model inorganic sorbents.(Thermodynamic Considerations in the Sorption of Organic Contaminants By Soils and Sediments, part 1) | Science and technology | Weilin Huang, Walter J. Weber Jr. |
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