Designing, analyzing, and developing novel biological systems, processes, devices, and technologies for prevention and treatment of disease.
Developing innovative and impactful diagnostics, therapies, and life sciences and medical technologies to improve healthcare and healthcare delivery systems.
Understanding complexity in systems and the collective behavior of their parts to stimulate revolutionary breakthroughs.
Developing innovative computer hardware and software, computable processes, programming, machine learning, artificial intelligence, data analytics, visualization, information systems and technologies.
Researching teaching knowledge and principles of engineering and attracting student to Science, Technology, Engineering and Mathematics and assuring student success, retention, and graduation.
Developing innovative energy systems and energy services to increase efficiency and sustainability of conventional, unconventional, and renewable energy technologies.
Developing innovative and protective means to address climate change, improve environmental quality, mitigate natural hazards and create sustainable and resilient natural and human-designed systems.
Developing sustainable, efficient, environment-friendly, and reliable building blocks of society for transportation, urbanization, telecommunication, recreation, and energy.
Fabricating, processing, preparing, and automating the assembly, and development of novel products from raw materials to increase industrial productivity and cost-efficiency.
Creating, designing, improving, and discovering novel materials for better solutions to technological, societal, and environmental problems. Advancing biomaterials, ceramics, electronic materials, metals, and polymers affecting many engineering fields and industries.
Generating, transmitting, distributing, and utilizing electric power for the benefit of society while improving efficiency, resiliency and sustainability of power systems and power grids.