Profile
My scholarship lies at the intersection of chemical education, science communication, and environmental policy. Trained as a physical chemist, I shifted my work toward chemical education research, driven by the question of how chemistry can serve as a lens through which students engage with pressing environmental challenges. I have published in peer-reviewed chemical education journals. Extending this work into science communication and environmental policy, I have published articles that connect the molecular-scale properties of water to challenges in delivering safe drinking water. My book, The Paradox of Water: Science and Policy of Safe Drinking Water (University of California Press, 2023), treats the invisibility of the molecular scale and of water infrastructure as parallel pedagogical and civic problems. My current work examines the potential of circular water management to mitigate chemical dispersal.
I teach courses that help students recognize the relevance of chemistry through contemporary social and environmental issues, including access to safe drinking water, air quality, climate change, and equitable energy decarbonization transitions. I aim to help students bridge scales—from the molecular to the social and policy dimensions—by applying a systems-thinking approach that highlights interconnections among environmental issues.
Degrees Held
Ph.D. in Chemistry, Columbia University, New York, NY, August 1989
M. Phil, Columbia University, New York, NY, August 1988
Master of Arts, Columbia University, New York, NY, May 1985
Bachelor of Science, St. Xavier's College, Mumbai, India, May 1984
Professional Affiliation
American Chemical Society
American Association for the Advancement of Science
New York Academy of Sciences
Association for Environmental Studies and Sciences
Science Education for New Civic Engagements and Responsibilities
Recent Publications
Book: The Paradox of Water: Science and Policy of Safe Drinking Water. University of California Press (publication date January 2023).
"Water is a molecular marvel. Its seemingly simple formula – H2O –dictates the properties that make water essential for life and easily contaminated. Herein lies the paradox of water—we cannot live without it, but it is easily rendered “unsafe.” The Paradox of Water explores the intersection of the scientific, social, and policy implications around access to safe drinking water. Drinking water is the smallest fraction of water used by a nation, yet, access to safe drinking water supports educational opportunities, helps overcome gender inequities, lowers familial stress, and enables more socially and economically productive uses of time."
Articles
1) Implementing interdisciplinary sustainability education with the food-energy-water (FEW) nexus. Romulo, C., B. Venkataraman, S. Caplow, S. Ajgaonkar, C.R. Allen, A. Anandhi, S.W. Anderson, C.B. Azzarello, K. Brundiers, E. Blavascunas, J. Dauer, D.L. Druckenbrod, E. Fairchild, L.R. Horne, K. Lee, M. Mwale, J.A. Mischler, E.E. Pappo, N.S. Patel, N.D. Sintov, C.S. Ramsdell, and S. Vincent. Humanit Soc Sci Commun 11, 928 (2024), Springer Nature Publications. https://doi.org/10.1057/s41599-024-03332-7
2) The Paradox of Water and the Flint Crisis, B. Venkataraman, Environment: Science and Policy for Sustainable Development, 60: 4-17 (2018)
3) Emphasizing the Significance of Electrostatic Interactions in Chemical Bonding, B. Venkataraman, Journal of Chemical Education (2017) DOI: 10.1021/acs.jchemed.6b00409
4) Visualizing Dispersion Interactions, E. Gottschalk, B. Venkataraman, Journal of Chemical Education, 91, 666-672 (2014)
5) Access to Safe Water: A Paradox in Developed Nations, B. Venkataraman, Environment: Science and Policy for Sustainable Development, 55, 24-34 (2013)
5) An Evaluation of the Chemical Origin of Life as a Context for Teaching Undergraduate Chemistry, B. Venkataraman, Chemical Education Research and Practice, 12, 379-387 (2011)
6) Earth’s Thin Blue Line, B. Venkataraman, Air, Ed. John Knechtel, Alphabet City, MIT Press, October 2010
7) The Price of Clean Water, B. Venkataraman, Water, Ed. John Knechtel, Alphabet City, MIT Press, October 2009
8) Education for Sustainable Development, B. Venkataraman, Environment, March/April 2009, p. 8-10
9) Visualization and interactivity in the teaching of chemistry to science and non-science students, B. Venkataraman, Chemical Education Research and Practice, 10, 62-69 (2009)
10) Why Environmental Education, B. Venkataraman, Environment, September/October 2008, p. 8-10
Interviews & Media presentations
The Flint Water Crisis. Interview in Troubling Waters: Understanding Global Water Security. Center for Strategic & International Studies report, February 8, 2024
A. McGowan. Profiles in Sustainability: Bhawani Venkataraman. Environment: Science and Policy of Sustainable Development, 66 (2024):32-42
Water, water everywhere and not enough drops to drink. The Round Table: A Next Generation Politics Podcast. December 2021.
Pollution and the Environment. Biobus Townhall, July 2020
Research Interests
Chemical education, sustainability and environmental education, curriculum development and assessment, science communication, environmental policies of air pollution, drinking water quality, climate change, and energy transitions.
Awards And Honors
Distinguished Teaching Award, The New School, 2019
MetroCITI Fellow, Teachers College, Columbia University, 2015-2016
Water Fellow, SENCER
Grants
1) Arthur Vining Davis Periclean Faculty Leadership Grant in STEM and Social Sciences, 2022
2) Implementation and Continued Development of Assessment Tools for the Interdisciplinary Science Curriculum, B. Venkataraman, J. Wilson. Provost Innovation in Education Fund, June 2010 – May 2011
3) Assessment Tools for the Interdisciplinary Science Curriculum, B. Venkataraman, J. Wilson. Provost Innovation in Education Fund, January – June 2010
4) Adapting Active-Learning Methods for a Chemistry Curriculum at Eugene Lang College, B. Venkataraman, National Science Foundation Course, Curriculum, and Laboratory Improvement, September 2005 – August 2009,