Student Research

Biology

• Stress and Cardiovascular Diseases

• HIV/AIDS

• Neurodevelopment/Neuro-disorders

• Environmental Toxicology

• Environmental Microbiology

• Molecular Biology/Gene Expression

• Bioinformatics

• Vision Science

Chemistry

• Synthesis, Modification, Characteriation and Biological Applications of Heptamethine Near-Infrared Dyes

• Development of novel chitosan based materials for the fabrication of biosensor systems

• Development of Anion and Amines Sensors

• Crystallization of small molecules and macromolecules using metal-assisted and microwave-accelerated evaporative crystallization

• Rapid bioassays for clinically relevant biomolecules using microwave-accelerated bioassays

Computer Science

• Artificial Intelligence

• Computer Modeling

• Computer Engineering

• Computational Sciences

• Bioinformatics

Mathematics

• Mathematical Biology

• Mathematical

• Modeling

• Topology

• Evolution Equations

• Ultrafilters

• Topological Semigroups

• Bioinformatics

Physics

• Nanomagnetic Applications

• Digital Image Processing

• Scanning, Atomic Force, and Scanning Tunneling Microscopy

• Mössbauer Spectroscopy

• Condensed Matter Physics

• Magnetic Thin Films

• Bioinformatics

Morgan Innovation Day

The annual showcase of faculty and student research and industrial development offers an interactive opportunity for lawmakers and citizens to learn more about Morgan’s strategic plans for commercializing science and technological innovation for Maryland’s emerging STEM industries.

Dr Aslan: Professor of Chemistry, has recently described and demonstrated the use of a new crystallization technology, called metal-assisted and microwave-assisted evaporative crystallization (MA-MAEC). The MA-MAEC technology was the subject of Morgan’s first ever patent full application in its over 140-year history.

Dr. Sitther : received a $100,000 Maryland Innovation Initiative grant to begin development of a method to produce biofuel from cyanobacteria in naturally available salt water.

Omar Muhammad: manages the Entrepreneurial Development & Assistance Center (EDAC). Past work experience includes small business lending and helping women start businesses.

Craig J. Scott: Engineering Visualization for network security, computer vision and image/spatial data fusion; technology assisted formative assessment and differentiated instruction.

Yacob Astatke:Performance and QoS management in mixed wireless networks and online engineering course development and delivery.

Arlene Cole-Rhodes: Image processing with applications in remote sensing and avionics and signal processing for wireless communications.

Richard A. Dean: Spectrum and QoS management with clustering, and network security for Mixed Wireless Networks; Aeronautical radio link simulation for network enhanced telemetry system.

Corey Dickens: Fabrication, characterization and simulation of wide and gap semiconductor materials and devices; GaN device HMETCIS solar cell research; SiGe HBT reliability simulations.

Kemi Ladeji-Osias: Synthetic Vision Systems, Haptic training in Biomedical Engineering, and integration of technology in the classroom.

Farzad Moazzami: Wireless communications, Signal Processing, 
Information assurance

Kofi Nyarko, Associate Professor: Computational engineering, scientific/ engineering simulation & visualization, complex computer algorithm development, computer network theory (including Ad-Hoc Mobile Networks), portable computing design and development, advanced computer display technologies, and avionic system software development.

Michel Reece, Associate Professor: Device characterization and modeling using MMIC and MIC technologies at RF, microwave, and millimeter wave frequencies.

James E. Whitney, II, Associate Professor: Algorithm development and hardware design using digital and statistical signal processing; detection, estimation, and multispectral sensing and image processing.

Gregory M. Wilkins, Lecturer: Applications of computational electro-magnetic 
methods for the solution field behavior in guided wave structures 
and radiating systems (antennas).

Goddard Earth Sciences Technology and Research (GESTAR)

Patuxent Environmental & Aquatic Research Laboratory

The mission of the Patuxent Environmental & Aquatic Research Laboratory  (PEARL) is to engage a diverse group of undergraduate and graduate students in conducting innovative research dedicated to investigating the complex interactions that define our environment. PEARL applies interdisciplinary approaches to studying the connections between complex ecological systems, while providing society with knowledge to meet the environmental challenges of the 21st Century.

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