First name,Last name,Preferred title,Overview,Position,Department,Individual
Peter,Rentzepis,Professor,My research interest include lasers and their application to science and technology.,Faculty Affiliate||Professor,Energy Institute||Electrical and Computer Engineering,https://scholars.library.tamu.edu/vivo/display/n08418952
Hans,Schuessler,Professor,"Atomic physics and laser spectroscopy: on-line spectroscopy of short-lived isotopes, measurement of nuclear moments, spins nd charge distributions, cross-sections for spin dependent atomic collisions, ion storage spectroscopy and laser cooling, low energy ion and atom collisions, highly charged ion spectroscopy and Wigner crystals.",Faculty Affiliate||Professor,Physics and Astronomy||Energy Institute,https://scholars.library.tamu.edu/vivo/display/n18880b39
Yassin,,Distinguished Professor,,Professor||Professor and Head||Faculty Affiliate,Mechanical Engineering||Energy Institute||Nuclear Engineering,https://scholars.library.tamu.edu/vivo/display/n24b7e601
Satish,Bukkapatnam,Professor,"Dr. Bukkapatnam's research addresses the harnessing of high-resolution nonlinear dynamic information, particularly from wireless MEMS sensors, to improve the monitoring and prognostics of real-world systems, including ultraprecision and nanomanufacturing processes and machines, and cardiorespiratory processes. His research has led to 185 peer-reviewed publications (115 published/ accepted in journals and 70 in conference proceedings), 1 granted and five pending patents, and has been the basis for 17 Ph.D. dissertations. His research has received support from federal agencies including National Science Foundation, Department of Energy, and Department of Defense, and the private sector including General Motors, Ford, National Instruments, and the Central Rural Electric Cooperative.",Faculty Affiliate||Professor,Energy Institute||Industrial and Systems Engineering,https://scholars.library.tamu.edu/vivo/display/n277d780c
Tahir,Cagin,Professor,"My research interests include: computational materials science and nanotechnology with emphasis on design; characterization and development of multifunctional nano-structured materials for device and sensor applications; fundamental studies on transport phenomena (heat, mass and momentum) at nanoscale and in confined media; thermal, mechanical, electronic and magnetic properties and phase behavior of materials; materials for thermal management, power generation and energy harvesting; and development and application of multiscale simulation methods.",Faculty Affiliate||Professor,Energy Institute||Materials Science and Engineering,https://scholars.library.tamu.edu/vivo/display/n299235a8
Laszlo,Kish,Professor,Unsolved problems of random noise; Unconditionally secure communications over the wire; KLJN key exchanger; Noise-based logic and computation; Fluctuation-enhanced sensing; SEPTIC bacterium detection method; 1/f noise; Noise in high-Tc superconductors; Conductance noise at percolation; Noise spectrum in self-organized criticality; Stochastic resonance; Nanomaterials and structures; Lognormal distribution; Neuronal firing dynamics; Originality in scientific research; Physical informatics; Energy dissipation in computing and communications; Non-validity of the Landauer theorem; Information versus thermal entropy; etc.,Faculty Affiliate||Professor,Energy Institute||Electrical and Computer Engineering,https://scholars.library.tamu.edu/vivo/display/n4e482d22
Philip,Hemmer,Professor,"I have research interests in solid materials for quantum optics, especially ""dark resonance"" excitation, materials and techniques for resonant nonlinear optics, phase-conjugate-based turbulence aberration and compensation, spectral hole burning materials and techniques for ultra-dense memories and high temperature operation, quantum computing in solid materials, quantum communication and teleportation in trapped atoms, holographic optical memory materials, smart pixels devices, optical correlators, photorefractive applications, atomic clocks, and laser trapping and cooling.",Professor||Faculty Affiliate,Energy Institute||Electrical and Computer Engineering,https://scholars.library.tamu.edu/vivo/display/n529066de
Jorge,Seminario,Professor,"Dr. Seminario's research covers several aspects of nanotechnology such as the analysis, design, and simulation of systems and materials of nanometer dimensions--especially those needed for development and systems for energy, nanosensors and nanoelectronics. Among his recent goals is the design of smaller, cleaner, more efficient and faster devices for energy production and storage as well as for detection of chemical, biological and nuclear agents. He has developed new scenarios for nanodevice architectures using a multiscale and multidisciplinary approach that progresses from the atomistic level to the final product, guided by first principles calculations.",Faculty Affiliate||Professor,Energy Institute||Chemical Engineering,https://scholars.library.tamu.edu/vivo/display/n563c3880
Dion,Antao,Assistant Professor,"Dr. Antao's current research interests are in molecular-to-macroscale heat transfer, fluid dynamics and interfacial phenomena, light-structure interactions on micro/nanostructured surfaces, and novel optical diagnostics and metrology for phase-change thermal transport characterization. Manipulating interfacial interactions (liquid-vapor-solid interfaces) at the nano- and microscale to design and enhance phase-change heat transfer processes for applications in electricity generation, electronics and energy conversion system thermal management, low-carbon aviation technology, and water purification. Investigating thermal and fluid transport in liquid-vapor two phase flow heat exchangers. Synthesis, molecular-to-macroscale characterization and accelerated durability testing of low surface energy promotor coatings for enhanced condensation heat transfer in energy systems. Synthesis and characterization of scalable and robust materials for solar energy conversion and boiling/evaporation heat transfer devices/technology. Application of non-equilibrium plasma technologies to enhance thermal, fluid and mechanical processes in clean and sustainable energy conversion applications.",Assistant Professor||Faculty Affiliate,Mechanical Engineering||Energy Institute,https://scholars.library.tamu.edu/vivo/display/n5c428c20
Arum,Han,Professor,"His research interests are in solving grand challenge problems in the broad areas of health and energy through the use of micro/nano systems technologies. His work in these areas has focused on the development of in vivo like in vitro systems through microfluidic lab-on-a-chip technologies (e.g., organ-on-a-chip & microphysiological systems, developmental neurobiology models of the central nervous system, blood-brain-barrier-on-a-chip, gastrointestinal tract-on-a-chip, high throughput live cell arrays), development of high throughput single-cell physio-chemical analysis platforms, and development of microbial systems as biorefineries for bioelectricity and biofuel production while simultaneously utilizing wastewater.
He has co-authored more than 80 peer-reviewed publications and has received funding from the Bill and Melinda Gates Foundation, National Institutes of Health (NIH), National Science Foundation (NSF), Defense Threat Reduction Agency (DTRA), United States Department of Agriculture (USDA), U.S. Army Corp of Engineers, Qatar National Research Foundation (QNRF), and several other international sponsors and private companies. He currently serves as the editorial board member of the journal PLoS ONE and as an associate editor for the journal Biomedical Microdevices.",Professor||Faculty Affiliate,Energy Institute||Electrical and Computer Engineering,https://scholars.library.tamu.edu/vivo/display/n8289e950
Hongcai,Zhou,Professor,"Research topics: Energy Storage for Transportation, Supramolecular Chemistry, Hydrogen and Methane Storage, Carbon Dioxide Capture, Clean-Energy-Related Separation, Metal-Organic Frameworks, Mesh-Adjustable Molecular Sieves, Mesoporous Materials, Biomimetic Synthesis.","Professor, Affiliated Faculty||Faculty Affiliate",Energy Institute||Materials Science and Engineering,https://scholars.library.tamu.edu/vivo/display/n8c5a2ac9
Bruce,Mccarl,Distinguished Professor,"Dr. McCarl's recent research efforts have largely involved policy analysis (mainly in climate change, climate change mitigation, water economics, and biosecurity) as well as the proper application of quantitative methods to such analyses. He teaches graduate courses in applied mathematical programming and applied risk analysis. He was part of the 2007 Nobel Peace Prize winning Intergovernmental Panel on Climate Change.",Faculty Affiliate||Distinguished Professor,Energy Institute||Agricultural Economics,https://scholars.library.tamu.edu/vivo/display/n9596bd48
Marlan,Scully,Distinguished Professor,,Distinguished Professor||Faculty Affiliate,Physics and Astronomy||Energy Institute,https://scholars.library.tamu.edu/vivo/display/na2a37577
Qingsheng,Wang,Associate Professor,"Our research is highly multidisciplinary in the process safety area with the intent to resolve the most critical safety problem in the industries, which is to prevent and mitigate hazardous phenomena including fire, explosion, and toxic release. The research is ranging from a molecular level, macroscale, plant level to an enterprise level. Topics include QSPR modeling, flame retardant, fire suppression, CFD modeling, pipeline corrosion, risk analysis, and leak detection. The research aims to bring perspectives of chemical engineering, chemistry, and fire protection engineering to energy industries and hence yield systematic solutions to process safety issues.",Associate Professor||Faculty Affiliate,Energy Institute||Chemical Engineering,https://scholars.library.tamu.edu/vivo/display/nb67cfe14
Perla,Balbuena,Professor,,University Distinguished Professor||Faculty Affiliate||Professor,Energy Institute||Chemical Engineering||Chemical Engineering,https://scholars.library.tamu.edu/vivo/display/nb82a0bc7
Scott,Socolofsky,Professor,"My research is in the broad area of Environmental Fluid Mechanics, with emphasis on laboratory experiments and data analysis to elucidate mixing mechanisms by turbulence and coherent structures. Current research projects study turbulent mixing processes in three contexts: (1) multiphase plumes, (2) shallow tidal inlets, and (3) natural seeps.",Faculty Affiliate||Professor||Professor,Civil Engineering||Ocean Engineering||Energy Institute,https://scholars.library.tamu.edu/vivo/display/nc6f9c90d
Mirjam,Furth,Assistant Professor,"Numerical and experimental hydrodynamics, high-speed craft dynamics, naval architecture, wave energy harvesting, seakeeping, wave downtime analysis and aquaculture.",Faculty Affiliate||Assistant Professor,Ocean Engineering||Energy Institute,https://scholars.library.tamu.edu/vivo/display/ncb9db74b
Xiaofeng,Qian,Associate Professor,"My research focuses on: Materials Theory, Discovery, and Design for Energy Applications and Device Design Aided by HighThroughput Computing; Two-Dimensional Materials and Their Coupled Multi-Physical Properties and Novel Device Concepts; Electronic, Thermal, Ionic, and Excitonic Transport in Nanostructured Materials; First-Principles Methodology Development towards Efficient and Accurate Prediction of Ground-state and Excited-state Properties of Materials; and Multiscale Materials Modeling of Complex Physical and Chemical Processes.",Faculty Affiliate||Associate Professor||Assistant Professor,Energy Institute||Materials Science and Engineering||Materials Science and Engineering,https://scholars.library.tamu.edu/vivo/display/nd67bf9a1
Junuthula,Reddy,Distinguished Professor and O'Donnell Foundation Chair IV,"The current research of Dr. Reddy and his group deals with refined shell theories and associated robust shell finite elements which are free of all types of locking, and nonlocal beam and plate theories using the ideas of Eringen, Mindlin, Koiter, and others (in collaboration with colleagues from China, Finland, France, India, Singapore, Spain). He and his group has developed a thermodynamically based strain gradient elasticity theory that contains Mindlin's model as a special case. They also conceived a transformative non-parametric network based methodology to study damage and fracture in solids (GraFEA), which yields mesh independent results for fracture and its propagation and it does not require user input about the possible fracture initiation and propagation. His works on nonlocal mechanics ideas and their incorporation into structural theories to predict the bending, buckling, and vibration response (the main idea is to embed micropolarity, which brings an additional layer of kinematics through the micro-rotation degrees of freedom within a continuum model to account for the microstructural effects during deformation to study architected materials and structures) and graph-based finite elements to predict damage and fracture are receiving attention of fellow researchers around the world. His shear deformation plate and shell theories and their finite element models and the penalty finite element models of non-Newtonian fluids have been implemented into commercial finite element computer programs like ABAQUS, NISA, and HyperXtrude.",Regents Professor||Distinguished Professor||Faculty Affiliate,The Texas A&M University System||Mechanical Engineering||Energy Institute,https://scholars.library.tamu.edu/vivo/display/nf2ea2ce4
Ioannis,Economou,"Senior Associate Dean for Academic Affairs and Graduate Studies, Texas A&M at Qatar","Dr. Economou's research focuses on the design, development, validation and application of state-of-the art models for the prediction of structure and physical properties of complex chemical systems that are of interest to oil & gas and chemical industry, to the protection of natural environment, and to the society, at large.",Faculty Affiliate||Associate Dean,Energy Institute||Chemical Engineering (Qatar),https://scholars.library.tamu.edu/vivo/display/nfc6fc907
Reza,Sadr,Associate Professor,"Dr. Sadr research interests include experimental techniques in thermo/fluid science with a focus on Advanced Energy Efficient Systems. He has active projects in nano/micro-fluids, droplets and sprays, alternative and bio fuels, atmospheric turbulence, and super critical fluid flows.
Dr. Sadr's Ph.D. research was on the experimental investigation of turbulent particulated coaxial jets using Molecular Tagging Velocimetry (MTV). These flow fields are of interest due to their application in coal combustion process and greenhouse gas production. He later extended his MTV expertise to study flow field inside IC engines. Dr. Sadr continued his work at the Georgia Institute of Technology on experimental methods in micro-, nano-flows and electroosmotic fluid mechanics. Micro- nano-fluidic systems, such as Lab-On-a-Chip and ?TAS, are the emerging technologies that require new understanding of the fundamental sciences in this field. His work on nano particle movement in fluids is focused on the novel techniques in particulated flow at micro and nano scale where Brownian motion is a major factor. Dr. Sadr is pioneer in development and application of nanoPIV for near wall fluid flow measurement.
Upon joining Texas A&M, Dr. Sadr focused his attention on the Advanced Energy Efficient Systems on several fronts at the Qatar campus. He continued his work on micro/nano fluidics for bio applications and Brownian motion. Furthermore, he initiated an active research on thermo-hydraulics of super critical CO2 flows and potentials of CO2-hydrocarbon based refrigerants, with a recent support funded by Shell. He has also successfully worked with Rolls-Royce, German Aerospace Institute (DLR), and Shell Inc. for spray and combustion characterization of Gas-to-Liquid (GTL) Fuel. He is continuing his work in studying Atmospheric Surface Layer (ASL) in Qatar to characterize pollution dispersion and potential wind energy applications in this region. Dr. Sadr is a member of ASME and APS.",Associated professor||Faculty Affiliate||Associate Professor,The Texas A&M University System||Mechanical Engineering (Qatar)||Energy Institute,https://scholars.library.tamu.edu/vivo/display/nffb2ee21