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Celebrating UNM Research and Discovery Week 2024
November 6, 2024

New Mexico universities unite in $7 million project to develop automated additive manufacturing
November 4, 2024

Engineering professor to lead $5 million project investigating materials for safe storage of nuclear waste
October 31, 2024

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October 16, 2015

Sadia Kabir is exploring a new world in the basement of Farris Engineering Building.

The engineering Ph.D. student works in the research group headed by University of New Mexico Distinguished Professor of Chemical and Biological Engineering Plamen Atanassov.

This kind of graphene-supported catalysts for fuel cells has great promise. For example, they can oxidize organic fuels like ethanol produced from bio-feedstocks, waste such as waste from corn production or the fermentation of sugar cane to generate small amounts of electricity. Moreover, the catalytic activity of the materials can be utilized as a source of other useful chemicals.

The UNM research group closely collaborates with colleagues in France at the University of Portiers and in Germany at the Franunhofer Institute for Chemical Technology (ICT). They cooperate to publish academic articles, the latest of which appears in the Journal of the Electrochemical Society, titled “Palladium Supported on 3D Graphene as an Active Catalyst for Alcohols Electrooxidation.” The researchers have jointly applied for multiple patents for various stages of the process.

One possible application for the research is to place the devices in proximity to agricultural plants or wastewater treatment plants. The feed stock materials would pass through the devices, which will produce fuel for the fuel cells, generate some electricity and produce useful chemicals.

UNM research professor of chemical and biological engineering Alexey Serov says the idea is to find a way to produce useful chemicals and fuel from agricultural waste products in an environmentally efficient process that will produce no emissions.

See video here.