个人简介

B.Sc., Chemical Engineering, University of Lagos, Nigeria 1984 MASc., Chemical Engineering, University of British Columbia, 1988 Ph.D., Chemical Engineering, Texas A&M University, 1991

研究领域

Electrochemical & Nanomaterials Engineering for Sustainable Energy and Environmental Systems Electrical Energy Storage Modeling - Batteries, Ultracapacitors and Fuel Cells Oxygen electrocatalysis (fuel cells), catalysis for Hydrogen generation from liquid fuels and biofuels Bioelectrochemistry - nanoparticles based biosensors, cancer thermotherapy CFD analysis of fluid flow and heat dynamics within porous media

Dr. Kalu and members of his research group are interested in the exploration of new materials functionality for the development of innovative device architectures exhibiting enhanced capacities and performance characteristics for energy sustainability. The establishment of fundamental principles governing performance activities of engineered materials needed for the generation, conversion and storage of renewable energy and the correlation of their surface compositions and molecular/atomic structures to their performance activities are important goal of our research interests. The identification of parameters and processes governing the performance activities of the engineered materials is then used with help of numerical modeling to develop strategies to enhance the performance activities of engineered energy materials. We aim to utilize fundamental principles of the sciences, mathematics and engineering to design and implement basic engineering research that addresses fundamental issues and challenges affecting materials in the areas of energy Generation Conversion and Storage (GCS) including electrofuels (bioelectrocatalytic reduction of carbon dioxide), advanced lithium-based batteries, chemical hydrogen storage, electrochemical (fuel cells, supercapacitor) and solar (photovoltaic) power sources. We are keenly interested in the investigation and discovery of novel materials systems for batteries, fuel cells, ultracapacitors, and solid state energy storage devices and in the design of bio-inspired reactor systems for fuel production and energy generation/storage systems. Also, we are interested in the synthesis, structural characterization and property measurements of materials for applications as electrodes, electrolytes and support structures for electrochemical energy storage systems. The current research interests include binder-free electrodes for batteries and supercapacitors, the synthesis and characterization of catalysts for oxygen reduction (fuel cells), catalysts for hydrogen generation from liquid fuels, hydrogenolysis of biomass-derived glycerols, biodiesel production and polymer-stabilized nanoparticles for biomedical and environmental applications.

近期论文

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J. Gomez, R. Nelson, E. E. Kalu, M. H. Weatherspoon, J. P. Zheng, "Erratum to "Equivalent Circuit Model Parameters of a High-Power Li-ion Battery: Thermal and State of Charge Effects" [J. Power Sources 196 (2011) 4826 – 4831], J. Power Sources 218, 5 (2012) E. E. Kalu, M. Daniel, M. R. Bockstaller, "Synthesis, characterization, electrocatalytic and catalytic activity of polymer-stabilized metal nanoclusters', Int. J. Electrochem. Sc. 7, 5297 – 5313 (2012) M. Rakap, E. E. Kalu, S. Özkar, "Hydrogen generation from hydrolysis of ammonia-borane using Pd-PVB-TiO2 and Co-Ni-P/Pd-TiO2 under stirred conditions", J. Power Sources 210, 184 – 190 (2012) L. Wilson, E. E. Kalu, L. Martin and M. E. McHenry "Decoration of surface of carbon nanotubes with Iron-cobalt (FeCo) alloy using polymer-stabilization and electroless deposition techniques for thermotherapy applications", J. Mater. Chem. 22, 595 – 601 (2012) J. Gomez, R. Nelson, E. E. Kalu, M. H.Weatherspoon, J. P. Zheng, "Equivalent Circuit Model Parameters of a High-Power Li-ion Battery: Thermal and State of Charge Effects", J. Power Sources 196, 4826-4831 (2011) M. Rakap, E. E. Kalu, S. Özkar, "Cobalt-nickel-phosphorus supported on Pd-activated TiO2 (Co-Ni-P/Pd-TiO2) as cost-effective and reusable catalyst for hydrogen generation from hydrolysis of alkaline sodium borohydride solution", J. Alloys & Compounds, 509, 7016-7021 (2011) M. Rakap, E. E. Kalu, S. Özkar, "Polymer-immobilized Palladium Supported on TiO2 (Pd-TiO2) as Highly Active and Reusable Catalyst for Hydrogen Generation from Hydrolysis of Unstirred Ammonia-Borane Solution", Int. J. Hydrogen Energy 36, 1448-1455 (2011) M. Rakap, E. E. Kalu, S. Özkar, "Hydrogen Generation from the Hydrolysis of Ammonia Borane Using Cobalt-Nickel-Phosphorus (Co-Ni-P) Catalyst Supported on Pd-activated TiO2 by Electroless Deposition", Int. J. Hydrogen Energy 36, 254-261(2011) E. E. Kalu, K. S. Chen, T. Gedris, "Continuous-Flow Biodiesel Production Using Slit-Channel Reactors", Bioresource Technology 102 4456-4461 (2011) E. E. Kalu, R. Bell, M. Dupree, "Improvement of the Corrosion Behavior of Electrodeposited CoFeCu Thin Films", Mater. Chem. & Phys. 124 (1) 689-693 (2010)