Synthesis And Organic-inorganic Interface Of Colloidal Lead Chalcogenide Nanocrystals | 8
Journal of Material Sciences & Engineering
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Electrical energy stored in batteries, particularly lithium-ion batteries, powers most of the modern portable
electronic devices such as cellphones and laptops. Batteries are also being pursued intensively for electric
vehicles and stationary storage of electricity produced by renewable sources like solar and wind. However, their
adoption for transportation and stationary storage applications requires significant reduction in cost, long cycle
life, increase in energy and power, and improvement in safety, which are in turn controlled by the component
materials used in batteries. Clearly, development of new materials for existing battery technologies or new battery
chemistries at an affordable cost with long life is needed to address our future energy needs. Accordingly, this
presentation will focus on the development of next generation of electrode materials for lithium-ion batteries as
well as new battery chemistries such as sodium-ion batteries and dual-electrolyte lithium-air batteries.
Arumugam Manthiram obtained his Ph.D. in 1980 from the Indian Institute of Technology at Chennai and postdoctoral training at the
University of Oxford and at the University of Texas at Austin (UT-Austin). He is currently the Joe C. Walter Chair in Engineering and
Director of the Texas Materials Institute at UT-Austin. His research is focused on materials for clean energy technologies. He has
published more than 400 papers in reputed journals. He is the Regional (USA) Editor of Solid State Ionics and is serving as an editorial
board member for 5 other journals.
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