- W.C. Jolin, A. Richards, D. VASUDEVAN, J.A. Gascon, A.A. MacKay. 2020. Aluminosilicate Mineralogy and the Sorption of Organic Cations: Interplay between Electrostatic Barriers and Compound Structural Features. Environmental Science and Technology, 54, 3, 1623-1633.
- W.C. Jolin, R. Goyetche*, K. Carter*, J. Medina*, D. VASUDEVAN, A.A. MacKay. 2017. Predicting Organic Cation Sorption Coefficients: Accounting for Competition from Sorbed Inorganic Cations Using a Simple Probe Molecule. Environmental Science and Technology, 51, 6193-6201.
- W.C. Jolin, J. Sullivan*, D. VASUDEVAN, A.A. MacKay 2016. Column chromatography to obtain organic cation sorption isotherms. Environmental Science and Technology, 50, 8196-8204.
- M. D’Alessio, D. VASUDEVAN, J. Lichwa, S. K. Mohanty, C. Ray 2014. Fate and transport of selected estrogen compounds in Hawaii soils: effect of soil type and macropores. Journal of Contaminant Hydrology, 166, 1-10.
- M. Samaraweera, W. Jolin, D. VASUDEVAN, A.A. MacKay, J. Gascon. 2014. Atomistic prediction of sorption free energies of cationic aromatic amines on montmorillonite: A linear interaction energy method. Environmental Science and Technology Letters, 1, 284-298.
- D. Vasudevan, T.A. Arey*, D.R. Dickstein*, M.H. Newman*, T.Y. Zhang*, H.M. Kinnear*, and M.M. Bader*. 2013.
Nonlinearity of cationic aromatic amine sorption to aluminosilicates and soils: Role of cation-π interactions, Environmental Science and Technology, 47, 14119-14127. - A.A. MacKay and D. VASUDEVAN. 2012. Polyfunctional ionogenic compound sorption: Challenges and new approaches to advance predictive models, Environmental Science and Technology, 46, 9209-9223.
- Figueroa-Diva, R.A., D. VASUDEVAN., A.A. MacKay.. 2010. Trends in Soil Sorption Coefficients Within Common Antimicrobial Families. Chemosphere, 79, 786-793.
- Cooper, E.M., and D. VASUDEVAN. 2009.
Hydroxynaphthoic acid isomer sorption to goethite. Journal of Colloid and Interface Science, 333, 85-96. - VASUDEVAN, D., G.L. Bruland, B.S. Torrance*, V.G. Upchurch*, A.A. MacKay. 2009. pH-dependent Ciprofloxacin Sorption to Soils: Interaction mechanisms and soil factors influencing sorption. Geoderma. 151, 68-76.
- Carrasquillo*, A.J., G.L. Bruland, A.A. MacKay, D. VASUDEVAN. 2008. Sorption of ciprofloxacin and oxytetracycline zwitterions to soils and soil minerals: Influence of compound structure. Environmental Science and Technology, 2008, 42, 7634-7642.
- Fimmen, R.L., D.D. Richter Jr., D. VASUDEVAN, M.A. Williams, L.T. West. 2008. Rhizogenic Fe-C redox cycling in deep upland soils: A hypothetical biogeochemical mechanism that drives crustal weathering. Biogeochemistry, 87, 127-141.
- Fimmen, R.L., T.D. Trouts, D.D. Richter, D. VASUDEVAN. 2008. Improved speciation of dissolved organic nitrogen in natural waters: amide hydrolysis with fluorescence derivatization. Journal of Environmental Sciences, 20, 1273-1280.
- Trivedi, P.
and D.VASUDEVAN. 2007. Spectroscopic Investigation of Ciprofloxacin Speciation at the Goethite-Water Interface. Environmental Science and Technology, 41, 3153-3158. - Jones, A.D., G. L. Bruland, S.G. Agrawal†, D. VASUDEVAN. 2005. Factors influencing oxytetracycline sorption to soils. , 24, 761-770.
- VASUDEVAN, D. and E.M. Cooper. 2004. 2,4-D Sorption in Iron-Oxide Rich Soils: Role of soil phosphate and exchangeable Al. , 38, 163-170.
Full Article: / PDF (156K) - †Harrington, L.F, E.M. Cooper, and D. VASUDEVAN. 2003. Fluoride sorption and related Al release in variable charge soils. Journal of Colloid and Interface Science, 267, 302-313.
- VASUDEVAN, D., E.M. Cooper, and O.L. Van
Exem . 2002. Sorption-Desorption of ionogenic compounds at the mineral-water interface: A comparison of metaloxide rich soils and pure phase minerals. Environmental Science and Technology, 36, 501-511.
Full Article: / (171K) - VASUDEVAN, D., R.L. Fimmen, and A.B. Francisco. 2001a. Tracer Grade Rhodamine WT: Structure of constituent isomers and their sorption behavior. Environmental Science and Technology, 35, 4089-4096.
Full Article: / (188K) - VASUDEVAN, D., P. J. Dorley, and X. Zhuang. 2001b. Adsorption of hydroxy- pyridines and quinolines at the metal oxide-water interface: Role of tautomeric equilibrium. Environmental Science and Technology, 35, 2006-3013.
Full Article: / (119K) - Sutton, D., Z.J. Kabala, A. B. Francisco, and D. VASUDEVAN. 2001c. Limitations and Potential of Commercially Available Rhodamine WT as a Groundwater Tracer. , 37, 6, 1641-1656.
- VASUDEVAN, D. and A.T. Stone. 1998a. Adsorption of Catechols, 2-Aminophenols and 1,2-Phenylenediamines at the Metal Oxide/Water Interface: Effect of Metal Oxide Structure. , 202, 1, 1-19.
- VASUDEVAN, D. and A.T. Stone. 1998b. Adsorption of Dissolved Organic Ligands onto (Hydr)oxide Minerals,
In: Soil Chemistry and Ecosystem Health, SSSA Special Publication, 52, SSSA, Madison, WI. - Miller, P.L., D. VASUDEVAN, P.M. Gschwend, and A.L. Roberts. 1998c. Transformation of Hexachloroethane in Sulfidic Lake Water. Environmental Science and Technology, 32, 1269-1275.
Full Article: HTML / PDF (116K) - VASUDEVAN, D. and A.T. Stone. 1996. Adsorption of Catechols, 2-Aminophenols and 1,2-Phenylenediamines at the Metal (Hydr)Oxide/Water Interface: Effect of Ring Substituents on the Adsorption onto TiO2, Environmental Science and Technology, 30, 1604-1613.
Full Article: / PDF (429K) - Stone, A.T., A. Torrents, J. Smolen, D. VASUDEVAN, and J. Hadley. 1993. Adsorption of Organic Compounds Possessing Ligand Donor Groups at the Oxide/Water Interface, Environmental Science and Technology, 27, 895-909.
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Dharni Vasudevan
Vasudevan’s research concerns the environmental fate of chemicals, such as pharmaceuticals and pesticides, and her work focuses on the mechanisms by which these compounds and related model substructures interact with surfaces in soil and aquatic environments. A professor at ºÚÁϳԹÏÍø±¬ÍøÕ¾ since 2004, Vasudevan was the chair of the Department of Chemistry from 2014–2018, and she currently serves as associate dean for faculty development and inclusion. In 2013–2014, she was a visiting scientist in the Exposure, Epidemiology, and Risk Program at the Harvard School of Public Health. Widely published (with ºÚÁϳԹÏÍø±¬ÍøÕ¾ student coauthors) in peer-reviewed publications and a frequent speaker at conferences and colleges and universities, Vasudevan has been awarded research grants from the National Science Foundation, the Merck/AAAS Undergraduate Science Program, the US Department of Agriculture, and many others. As an undergraduate student she really got hooked on environmental chemistry when I discovered that chemical structure dictates chemical properties and their ‘personalities,’ which in turn determines how they behave in the natural environment, which in turn impacts human and wildlife exposure to them. Vasudevan, who is jointly appointed to chemistry and environmental studies, routinely team-teaches with other ºÚÁϳԹÏÍø±¬ÍøÕ¾ professors, and leads students in her research lab, a group those students fondly refer to as “Team Dirt.” Her research work focuses on the mechanisms by which organic and inorganic compounds interact with mineral surfaces in soil and aquatic environments.
To contact Dharni:
Please email dvasudev@bowdoin.edu or call 207-725-3548
To meet with Dharni at HL 310 or via Zoom:
On M 3-4:10 PM; T 4:20-4:50 PM; W 10:40-11:50 AM; R 3-4:10 PM; F 1:00-2:10 PM, you may schedule a time via the . To meet at other times, please contact Claire Jaques Bogan (cjaquesb@bowdoin.edu) to schedule a mutually convenient time
Education
- PhD, Environmental Chemistry, Department of Geography and Environmental Engineering, John Hopkins University, 1996
- MSE, Environmental Engineering, Department of Geography and Environmental Engineering, John Hopkins University, 1992
- BS, Environmental Engineering Science, Department of Civil and Environmental Engineering, Massachusetts Institute of Technology, 1990