@article{0a67656b08214b38ae71bd4eaa644a38,
title = "Electrochemical technologies for water treatment, management, and efficiency",
author = "Botte, {Gerardine G.}",
note = "Funding Information: The author thanks the financial support of different programs and the cooperation of different partners: • Department of Defense through the U.S. Army Construction Engineering Research Laboratory Grants W9132T-09-1-001 and W9132T-12-2-0006 that funded part of the development of the ammonia electrolysis technology. Funding Information: distinguished professor and Russ professor of chemical and biomolecular engineering at Ohio University, the founder and director of Ohio University{\textquoteright}s Center for Electrochemical Engineering Research, and the founder and director of the National Science Foundation I/ UCRC Center for Electrochemical Processes and Technology. She and members of her research group are working on projects in the areas of electrochemical engineering, electrosynthesis, batteries, electrolyzers, sensors, fuel cells, mathematical modeling, and electrocatalysis. She has 140 publications (including 22 granted patents). She is a fellow of The Electrochemical Society, charter fellow of the National Academy of Inventors, and a fellow of the World Technology Network. Botte served as past chair, vice chair, and secretary/treasurer of the IEEE Division. She received her BS in chemical engineering from Universidad de Carabobo (Venezuela) in 1994. Prior to graduate school, she worked as a process engineer in a petrochemical plant (Petroquimica de Venezuela) where she was involved in the production of fertilizers and polymers. She received her PhD in 2000 (under the direction of Ralph E. White) and ME in 1998, both in chemical engineering, from the University of South Carolina. She may be reached at botte@ohio.edu. Funding Information: • The National Science Foundation I/UCR Center for Electrochemical Processes and Technology (award number lIP-1362075) and De Nora Tech for funding the pilot demonstration for the treatment of hydraulic fracking produced wastewater.",
year = "2017",
month = jun,
day = "1",
doi = "10.1149/2.F04172if",
language = "English",
volume = "26",
pages = "53--61",
journal = "Electrochemical Society Interface",
issn = "1064-8208",
number = "2",
}