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Cockrell School: R. Ruoff
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Cockrell School: Michael Webber
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Cockrell School: S. Biegalski
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Cockrell School: Dr. Ofodike A. Ezekoye, Mechanical Engineering Associate Professor and the General Motors Foundation Centennial Teaching Fellow
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Cockrell School: The Austin Fire Department implemented Dr. Ezekoye's research in a controlled burn of the home behind him.
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Cockrell School: Dr. Ezekoye standing in the home that was used in a controlled burn led by the Austin Fire Department. The Fire Department implemented Ezekoye's combustion research in the burn.
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Cockrell School: Research findings from the laboratory of Dr. John Goodenough, Professor of Mechanical Engineering
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Cockrell School: Research findings from the laboratory of Dr. John Goodenough, Professor of Mechanical Engineering
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Cockrell School: Dr. Ronald Dass (left), Dr. Yun-Hui Huang (center) and Dr. John Goodenough (right)
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Cockrell School: Research findings from the laboratory of Dr. John Goodenough, Professor of Mechanical Engineering
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Cockrell School: Dr. John Goodenough, Professor of Mechanical Engineering
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Cockrell School: Dr. Arumugam Manthiram next to a membrane-electrode assembly, and carbon plates, which are being tested in his fuel-cell research.
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Cockrell School: An engineering doctoral student holds a bipolar plate made of carbon whose characteristics are being modified using computer-aided selective sintering.
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Cockrell School: Dr. Manthiram holds a fuel cell membrane-electrode assembly that his laboratory developed to generate electricity from chemical reactions.
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Cockrell School: Dr. C. Grant Willson holds a wafer that was patterned by step-and-flash lithography.
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Cockrell School: Dr. S. V. Sreenivasan (left) and Dr. C. Grant Willson (right) create better fabrication method for high-end computer chips, LED devices.
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Cockrell School: Mechanical Engineering Professor, David Morton, has received $1.9 million to expand a computer model that is already helping guide national decisions about placement of devices to detect nuclear smuggling attempts.
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Cockrell School: Mechanical Engineering Professor, David Morton, has received $1.9 million to expand a computer model that is already helping guide national decisions about placement of devices to detect nuclear smuggling attempts.