First name,Last name,Preferred title,Overview,Position,Department,Individual
Vishal,Gohil,Associate Professor,"Despite the fundamental role of the mitochondrion in cellular energy production and its involvement in numerous human diseases, we still do not know the function of nearly 20% of the known mitochondrial proteins. My laboratory applies genomic, genetic, and biochemical tools to uncover the role of these uncharacterized proteins in the mitochondrial respiratory chain (MRC) biogenesis. MRC is the main site of cellular respiration and energy production and since the core components of the MRC are evolutionarily conserved, we reason that the assembly factors required to build the MRC should also be conserved. Therefore, we utilize multiple models systems, including yeast, zebrafish, and human cell lines, to determine the role of these conserved, uncharacterized mitochondrial proteins in bioenergetics, organismal development, and human disease pathogenesis.
Another poorly understood aspect of the mitochondrial energy metabolism is the role of phospholipids in maintaining the structural and functional integrity of the MRC. Although it is well known that the MRC is localized in the inner mitochondrial membrane, how the unique lipid milieu of the mitochondrial membrane influences the assembly and activity of the MRC is not fully understood. We have constructed yeast mutants with defined mitochondrial phospholipid compositions to systematically determine each lipid's role in MRC assembly and activity. Ultimately, defining the roles of mitochondrial proteins and phospholipids will allow us to develop better diagnostic and therapeutic options for human disorders resulting from mitochondrial dysfunction.",Faculty Affiliate||Assistant Professor,Energy Institute||Biochemistry and Biophysics,https://scholars.library.tamu.edu/vivo/display/n03100e49
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
Ethan,Grossman,"Professor, Michel T. Halbouty Chair","My research focuses on global change and paleoclimates, stable isotope geochemistry, coastal environments past and present, hypoxia, isotope hydrology, past and present, biogeochemistry and geomicrobiology of aquifer systems.","Faculty Affiliate||Professor, Michel T. Halbouty Chair||Director",Geology and Geophysics||Stable Isotope Geosciences Facility||Energy Institute,https://scholars.library.tamu.edu/vivo/display/n0c709094
Timothy,Devarenne,Associate Professor,"We study the biochemical and molecular mechanisms underlying the control of programmed cell death (PCD) in plants and how PCD is manipulated during plant-pathogen interactions. Specifically we study the interaction between tomato and Pseudomonas syringae pv. tomato (Pst) the causative agent of bacterial spot disease. Resistance to this disease is conferred by the host Pto serine/threonine protein kinase which recognizes Pst strains expressing the type III effector protein AvrPto.
PCD is induced during both resistant and susceptible plant-pathogen interactions. In the case of a resistant interaction, PCD induced by the plant, known as the hypersensitive response (HR), and acts to limit the spread of the pathogen. In susceptible plant-pathogen interactions plant PCD is induced by the pathogen after infection leading to death of the host. Studies have indicated that the genes controlling host PCD during the HR are the same genes that are manipulated by the pathogen during susceptible interactions. The difference lies in the timing of controlling the activity of these genes; HR PCD occurs within 12 hours of pathogen recognition while pathogen-induced PCD occurs several days after infection.
Many of these genes that control plant PCD are serine/threonine (S/T) protein kinase. We are interested in studying a specific class of S/T protein kinases that control PCD in plants called AGC kinases and how they are regulated in both resistant and susceptible plant-pathogen interactions. Additionally, when plants are not attacked by pathogens, PCD is a process that requires constant control so that cell death does not occur. We are looking at the signaling mechanisms and pathways employed to keep PCD under check in non-pathogen challenged plants.",Faculty Affiliate||Associate Professor,Energy Institute||Biochemistry and Biophysics,https://scholars.library.tamu.edu/vivo/display/n11411275
Karl,Hartwig,Professor,"My research focuses on: (a) Development of improved materials for various applications: electrical conductors including superconductors, light weight structures, high density structures, and human implants (Mg and Ti); (b) Understanding structure-property-processing relationships in metal alloys; (c) Severe plastic deformation processing of solid and particulate materials via equal channel angular extrusion (ECAE); (d) Applied superconductivity - superconductor stabilizer materials and conductor design; and (e) Material failure analysis.",Professor||Faculty Affiliate,Energy Institute||Materials Science and Engineering,https://scholars.library.tamu.edu/vivo/display/n163f68fe
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
Sandun,Fernando,Professor,"Progression of chemical reactions often requires the presence of a substance called a catalyst that selectively accelerates the desired reaction(s) without itself being consumed. In this regard, enzyme catalysts are very selective towards specific reactions. However, their ability to tolerate a wide range of reaction conditions is poor. On the other hand, non-enzymatic catalysts (inorganic and organic) are robust and tolerant to a wide range of conditions, but they are not very selective. The long-term goal of my research program is to integrate (marry) desirable traits of both these catalysis systems in order to develop catalytic systems with novel functionalities.",Faculty Affiliate||Professor,Biological and Agricultural Engineering||Energy Institute,https://scholars.library.tamu.edu/vivo/display/n1b70c743
Jonathan,Felts,Associate Professor,"My research focuses on Scalable Nanomanufacturing, Nanometer Scale Thermal and Mass Transport, Near Field Optics, Organic Optoelectronics, MEMS/NEMS Design and Fabrication. Our lab develops new tools and techniques to pattern unconventional materials at the nanoscale, with particular interests in polymers, organic small molecules, metallic and semiconducting nanoparticles, and 1- and 2-D materials.",Associate Professor||Faculty Affiliate,Mechanical Engineering||Energy Institute,https://scholars.library.tamu.edu/vivo/display/n1f9d4ddc
Sarbajit,Banerjee,Professor,"Much of our research program is directed at understanding the interplay between geometric and electronic structure at interfaces as well as in solid-state materials and to examine how this translates to functional properties. Our research thus spans the range from materials synthesis, mechanistic understanding of crystal growth processes, and structural characterization to device integration and mechanistic studies of catalysis and intercalation phenomena. We further seek to translate fundamental understanding of interfaces and materials to develop functional thin films and devices for a wide range of applications ranging from Mott memory to thermochromic window coatings and thin films for the corrosion protection of steel.",Professor||Faculty Fellow||Faculty Affiliate,Center for Health Systems and Design||Energy Institute||Chemistry,https://scholars.library.tamu.edu/vivo/display/n1fff3688
Chukwuzubelu,Ufodike,Assistant Professor,,Faculty Affiliate||Assistant Professor||Faculty Affiliate,Engineering Technology and Industrial Distribution||Energy Institute||Institute for Engineering Education and Innovation,https://scholars.library.tamu.edu/vivo/display/n235d4fe7
Yassin,,Distinguished Professor,,Professor||Professor and Head||Faculty Affiliate,Mechanical Engineering||Energy Institute||Nuclear Engineering,https://scholars.library.tamu.edu/vivo/display/n24b7e601
Virender,Sharma,Professor,"My research focuses on (1) chemistry and application of ferrates, (2) formation, fate, and toxicity of silver and gold engineered and natural nanoparticles in aquatic environment, (3) applications of ferrites to destroy toxins and pollutants under solar light, and apply carbon-based materials to remediate contaminated water",Faculty Affiliate||Professor,Energy Institute||Environmental and Occupational Health,https://scholars.library.tamu.edu/vivo/display/n28508dfb
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
Ying,Li,Professor,"The research in our laboratory focuses on advanced materials and processes for sustainable energy and clean environment. Our group is specialized in synthesis of nanomaterials and multifunctional materials, catalysis and photocatalysis, carbon capture and conversion, natural gas utilization, solar photochemical and thermochemical processes, rechargeable batteries, membrane technology (wastewater treatment, desalination, drinking water purification), and aerosol engineering. For example, we have designed multifunctional nanomaterials to catalytically convert CO2 and water to syngas under solar irradiation, which can be further processed to produce liquid fuels. We also perform advanced microscopic and spectroscopic studies to understand materials properties, interfaces and surface chemistry.",Faculty Affiliate||Professor,Mechanical Engineering||Energy Institute,https://scholars.library.tamu.edu/vivo/display/n2b854905
Hongbin,Zhan,Holder of Endowed Dudley J. Hughes '51 Chair in Geology and Geophysics,"My teaching and research interests are primarily in fundamental processes of groundwater hydrology, flow and transport in geological formations, and their applications in water resources management and geological, environmental, and petroleum engineering. I am recently interested in unconventional subsurface flow and transport processes, with the studied media changing from permeable porous and fractured ones to much less permeable ones such as clay and shale, and the studied pore sizes also changing from millimeters to micro-meters or even nano-meters. I am interested in the following research:
1. Flow and solute transport in highly deformable low-permeability porous media
2. Interaction of aquifer with connected and disconnected rivers
3. Vapor flow and transport in the subsurface
4. Non-Darcian flow and its impact on anomalous transport
5. Coupled unsaturated-saturated flow and transport problems
6. Radial dispersion and push-and-pull tests
7. Flow and transport in sloping aquifers
8. Coupled aquifer-conduit-fracture flow and transport
9. Flow and transport in fracture-matrix systems
10. Vadose zone infiltration well",Faculty Affiliate||Endowed Ray C. Fish Professor||Holder of Endowed Dudley J. Hughes Chair in Geology and Geophysics,Geology and Geophysics||Energy Institute||College of Geosciences,https://scholars.library.tamu.edu/vivo/display/n31c29796
Richard,Feldman,Senior Professor,"Rich Feldman specializes in simulation, applied probability, and operations research. Some of his recent research has involved simulation, queueing analysis, and software development for biological models. He teaches the operations research courses, stochastic processes, simulation, and queueing theory. For teaching simulation, he uses Simio simulation software under a grant from Simio LLC (www.simio.com).",Senior Professor||Faculty Affiliate,Industrial and Systems Engineering||Institute for Engineering Education and Innovation,https://scholars.library.tamu.edu/vivo/display/n360f4b3d
Arun,Srinivasa,Professor,"My research focuses on plasticity of metals and polymers; thermomechanics of dissipative processes, dislocation dynamics, Cosserat continua, design and dynamics of compliant mechanisms.",Professor||Faculty Affiliate,Mechanical Engineering||Institute for Engineering Education and Innovation,https://scholars.library.tamu.edu/vivo/display/n3b0f1d01
Yangyang,Xu,Assistant Professor,,Faculty Affiliate||Assistant Professor,Atmospheric Sciences||Energy Institute,https://scholars.library.tamu.edu/vivo/display/n3d9f7a92
Vani,Mathur,Assistant Professor,"My work focuses on understanding the sources of disparities in pain, and the specific mechanisms by which social and cultural factors alter pain experience and pain physiology. My research targets the problem of pain disparities from two directions - investigating the different ways social factors may influence one's own pain, and also alter pain perception and empathy for others. To tackle these problems, my lab utilizes behavioral, psychophysical, and neuroimaging methodologies. I am also interested in individual differences in chronic pain and pain modulation, cross-cultural examinations of pain and empathy, and social environmental effects on health broadly defined.",Faculty Fellow||Assistant Professor||Faculty Affiliate||Training Faculty,Center for Health Systems and Design||Center for Population Health and Aging||Texas A&M Institute for Neuroscience||Psychological and Brain Sciences,https://scholars.library.tamu.edu/vivo/display/n40fc0470
James,Batteas,Professor,"The research in our group is organized around three main projects: nanoscale materials and devices, biological surfaces and interfaces and nanotribology,
with the overarching goal of developing custom engineered surfaces and interfaces. This requires obtaining a fundamental (molecular level) understanding of the underlying chemistry and physics of the systems in question to afford rational approaches to test and develop new technologies. In much of our research we employ a range of scanned probe microscopies such as scanning tunneling microscopy (STM) and atomic force microscopy (AFM) to probe structure and to manipulate materials at the nanoscale.",Faculty Affiliate||Professor||Faculty Fellow||D. Wayne Goodman Professor of Chemistry,Center for Health Systems and Design||Energy Institute||Chemistry||Chemistry,https://scholars.library.tamu.edu/vivo/display/n413d1dff
Maria,King,Research Associate Professor,"My interdisciplinary studies focus on the development of the wetted wall cyclone aerosol collector technology to monitor potential health hazards and improve surveillance efforts by collecting aerosols released from agricultural and industrial facilities and modeling particle dispersion. Within a coal mining industry study we aim to determine the influence of particle size distribution, chemical composition and morphology of airborne respirable mine dusts and diesel particulates on lung disease. My projects involve fluid mechanics, computational flow modeling and metagenomics to study biofilms in oil fields and nuclear reactors and mitigate microbial contamination in drilling equipment, hydraulic fracturing water and cooling systems.",Assistant Professor||Faculty Affiliate||Faculty Affiliate,Biological and Agricultural Engineering||Energy Institute||Institute for Engineering Education and Innovation,https://scholars.library.tamu.edu/vivo/display/n44870816
Matthew,Yarnold,Assistant Professor - Term Appoint,"My research aims to further our understanding of structural systems through sensing, instrumentation/testing, and structural health monitoring.",Assistant Research Scientist||Faculty Affiliate||Assistant Professor,Civil Engineering||Texas A&M Transportation Institute (TTI)||Institute for Engineering Education and Innovation,https://scholars.library.tamu.edu/vivo/display/n49b1f29e
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
Rosana,Moreira,Professor,"My research topics include engineering aspects of foods and food processes; fundamental modeling: dehydration, frying, extrusion, food irradiation; process control techniques as applied to food processing systems: food extrusion processes, continuous fryers, and continuous flow grains dyers; deep-fat frying: modeling, oil absorption mechanisms, vacuum frying, acrylamide; impingement drying; food safety: food irradiation and biosensor technology.",Professor||Faculty Affiliate||Faculty Affiliate,Biological and Agricultural Engineering||Energy Institute||Institute for Engineering Education and Innovation,https://scholars.library.tamu.edu/vivo/display/n53d8a153
Charles,Peak,Instructional Assistant Professor,,Faculty Affiliate||Instructional Assistant Professor,Engineering Education Research Taskforce||Biomedical Engineering,https://scholars.library.tamu.edu/vivo/display/n5610a27c
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
Taylor,Harvey,Assistant Professor,"Dr. Harvey joined the faculty of the Department of Science and Mathematics at Texas A&M University- Central Texas in 2016 as the recipient of the Chancellor's Research Initiative. Dr. Harvey currently is the TEES regional director for Central Texas and co-directs the Texas A&M Site of the National Science Foundation Industry/University Collaborative Research Center (I/UCRC) on Next Generation Photovoltaics. His primary area of research is solar energy with a focus on photovoltaic characterization, new solar materials (such as solar paints), and solar microsystems. Before his current position, Dr. Harvey co-founded and led Lucelo Technologies, a printed solar start-up.","Faculty Affiliate||Assistant Professor, Science and Mathematics||TEES Researcher at TAMU-Central Texas","Energy Institute||Texas A&M University – Central Texas - (Killeen, Texas, United States)||TEES Regional Divisions",https://scholars.library.tamu.edu/vivo/display/n56db1cce
Charles,Culp,Professor,"Dr. Culp's interests are technology education, improving the comfort/energy efficiency of buildings, involving students in research, combining architecture with technology to achieve high performance buildings, measurement and verification, air flow technology and human comfort in building spaces.",Faculty Affiliate||Faculty Fellow||Professor,Center for Health Systems and Design||Architecture||Energy Institute,https://scholars.library.tamu.edu/vivo/display/n6036ada4
Mark,Lawley,Professor and Head,"Mark Lawley is TEES Research Professor, and he holds appointments in the Departments Biomedical Engineering and Epidemiology and Biostatistics at Texas A&M University. He serves as Deputy Director of the Center for Remote Health Technologies and Systems, which focuses on developing breakthrough health care devices, technologies, and systems for disease prevention, diagnosis, and management in the global health setting.",Deputy Director||Professor||Department Head and Professor||Professor||Faculty Affiliate||Research Professor,Texas A&M Engineering Experiment Station (TEES)||Epidemiology and Biostatistics||Center for Remote Health Technologies and Systems||Biomedical Engineering||Industrial and Systems Engineering||Institute for Engineering Education and Innovation,https://scholars.library.tamu.edu/vivo/display/n60eae9fb
Yige,Zhang,Associate Professor,"I'm a paleoclimatologist/paleoceanographer interested in using geochemistry, geochemical and climate modeling as tools to study past changes in climate and global biogeochemical cycles, with the goal of learning lessons for our future. We run an organic geochemistry lab equipped with gas chromatography, liquid chromatography and isotope ratio mass spectrometry that are specialized at measuring the composition and stable isotopes of lipid biomarkers or ""molecular fossils"".",Faculty Affiliate||Associate Professor,Oceanography||Energy Institute,https://scholars.library.tamu.edu/vivo/display/n613c8c7f
Ahmed,Abdala,Professor,"Professor Abdala research focuses on development of advanced materials for energy and environmental applications based on polymers and nanomaterials, including polymer nanocomposites, functionalized graphene materials, anticorrosion coatings, polymeric membranes for gas separation and water treatment, and nanohybirds of metal/metal oxides and 2D carbon nanomaterials for catalysis, adsorption, energy storage, and thermoelectric materials. In addition, Dr. Abdala has research interests in applications of polymers and surfactants for EOR.",Faculty Affiliate||Associate Professor,Energy Institute||Chemical Engineering (Qatar),https://scholars.library.tamu.edu/vivo/display/n6cdc74b2
Marcetta,Darensbourg,Distinguished Professor,"Bio-inspired Catalysts for Hydrogen Production: The ultimate, home-run, goal of our work is to synthesize and develop a robust, highly active hydrogen-producing catalyst comprised of earth-abundant transition metals within a ligand environment that is inspired by the biological Figure 3hydrogenase (H2ase) enzyme active sites. Progress in precise structural modeling of the illusive ""rotated"" structure displayed in the as-isolated, mixed-valent FeIIFe state in the past decade has permitted in depth analysis of electronic structure by Mo ssbauer, EPR (ENDOR), and computational chemistry. New electrocatalysts for hydrogen production: The connection between the Fe(NO)2 unit and the Fe(CX)3 (X = O or N) unit found in hydrogenase enzyme active sites offers opportunity for design of new catalysts, one of which is shown. In this regard we explore the ability of N2S2 metal complexes to bind as metallodithiolate ligands to various metal acceptors. The properties of such complexes vary The connection of these to light harvesting molecules for dye sensitized, sacrificial electron donor, hydrogen production is also of interest. When Iron Meets Nitric Oxide: Good Chemistry, Intriguing Biology. The affinity of iron for diatomic molecules, O2, CO, N2, and NO, is central to the most important of life processes, including those of human physiology. Figure 6In this research area we target synthetic chemistry involving dinitrosyl iron complexes (DNICs) that serve as biomimetics of products of FeS cluster degradation by excesses of NO, or as derived from the chelatable iron pool (CIP) in cells. The electronic ambivalence of the DNIC unit is expressed in the ease with which it interconverts between oxidized and reduced forms, {Fe(NO)2}9 and {Fe(NO)2}10, respectively (Enemark/Feltham notation), and serves as impetus to explore analogous reactions known to involve the CuII/CuI redox couple. The accessory ligands which stabilize one redox level over the other, including N-heterocyclic carb",Distinguished Professor||Faculty Affiliate,Energy Institute||Chemistry,https://scholars.library.tamu.edu/vivo/display/n6f445741
Janie McClurkin,Moore,Assistant Professor,"I manage the Post-Harvest Engineering and Education research lab, focusing on post-harvest treatment technologies and engineering eduction. My research mission is to identify post-harvest treatment technologies capable of transforming lignin into value added chemicals. This research also provides new knowledge on the role of ozone and atmospheric cold plasma treatments for the reduction of spoilage organisms during post-harvest processing and storage. Research is currently being conducted with a variety of commodities including, stored grains (i.e., corn, rice), oil seeds and byproducts (i.e., cottonseed, cottonseed meal), and packaged produce (i.e., tomatoes and romaine lettuce).
I also work to develop teaching materials for those who utilize new treatment and storage technologies, so they feel more connected with the technologies thereby increasing the instances of utilization.",Member||Faculty Affiliate||Faculty Affiliate||Assistant Professor,Biological and Agricultural Engineering||Engineering Education Research Taskforce||Energy Institute||Institute for Engineering Education and Innovation,https://scholars.library.tamu.edu/vivo/display/n717a88ea
Micah,Green,Professor,,Professor||Faculty Affiliate,Energy Institute||Chemical Engineering,https://scholars.library.tamu.edu/vivo/display/n7276eb81
Kung-Hui (Bella),Chu,Professor,"Our research interests are in enhancing our understanding of microbial-mediated processes in natural and engineered systems, and in application and development of biotechnology to address various environmental challenges in water, soils, and energy. The Chu lab applies molecular biology, isotopic techniques, chemical analysis, and phage biology to study environmental and biological systems, with focuses on (i) microbial ecology, fate and transport, biodegradation of environmental pollutants such as emerging contaminants and persistent organic pollutants, (ii) production of biofuels and bioproducts from renewable resources, and (iii) detection, tracking, and quantification of microorganisms that play roles in water quality, bioremediation, carbon sequestration and nitrogen cycle in the environment. Other research areas include development and application of novel sorbents and catalysts (bio and non-bio) for removing and/or monitoring emerging environmental pollutants.",Faculty Affiliate||Professor,Civil Engineering||Energy Institute,https://scholars.library.tamu.edu/vivo/display/n7a373eec
Mohammad,Naraghi,Associate Professor,"The research interests of Dr. Naraghi include light weight and multifunctional materials, with an emphasis on carbonized micro and nanoscale reinforcements for energy-related applications, including wind energy sector and flywheels. He is an expert in the application of microelectromechanical system devices to characterize nanoscale materials.",Faculty Affiliate||Associate Professor,Aerospace Engineering||Energy Institute,https://scholars.library.tamu.edu/vivo/display/n7b5a0e03
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
Mohammed,Al-Hashimi (FRSC),Engineering Professor,"Dr. M. Al-Hashimi has extensive experience in organic polymers with a focus on the design and synthesis of organic semiconductor materials for a range of optoelectronic applications, including field effect transistors, photovoltaic devices, light emitting diodes and sensors. His other interests center on the development of well-defined novel polymeric materials for Ring Opening Metathesis Polymerisation (ROMP) and synthesis of recoverable, reusable homogeneous and heterogeneous catalysts.",Faculty Affiliate,Energy Institute,https://scholars.library.tamu.edu/vivo/display/n87f91e74
Hae-Kwon,Jeong,Professor,"Development of novel methodologies to design, modify, deposit and microfabricate nanostructured materials and to build them into hierarchical structures and complex forms for wide ranges of applications including separation membranes, selective catalysts, adsorbents as well as micro systmes, fuel cells, bio-separation, micro photonics, etc.",Faculty Affiliate||Professor,Energy Institute||Chemical Engineering,https://scholars.library.tamu.edu/vivo/display/n8c079637
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
Yossef,Elabd,Professor,,Professor||Faculty Affiliate,Energy Institute||Chemical Engineering,https://scholars.library.tamu.edu/vivo/display/n94839ce3
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
Ahmed,Abdel-Wahab,Professor,"Dr. Abdel-Wahab's primary focus is on chemical, electrochemical, and physical processes associated with treatment of water and wastewater, carbon dioxide conversion, and green hydrogen production from water splitting. This research has attracted significant external funding totaling more than $12M as the lead principal investigator and more than $6M as co-investigator. Abdel-Wahab's research has led to publication of more than 130 peer-reviewed articles in leading research journals, 9 book chapters, and more than 80 refereed conference publications/presentations. He is an editorial board member of the Journal of Water Process Engineering (Elsevier) and an associate editor of Emergent Materials Journal (Springer).","Technical Director, QWE||Faculty Affiliate||Professor||Professor",Civil Engineering||Texas A&M University at Qatar||Energy Institute||Chemical Engineering (Qatar),https://scholars.library.tamu.edu/vivo/display/n96a2a261
Marlan,Scully,Distinguished Professor,,Distinguished Professor||Faculty Affiliate,Physics and Astronomy||Energy Institute,https://scholars.library.tamu.edu/vivo/display/na2a37577
Choongho,Yu,Associate Professor,,Associate Professor||Faculty Affiliate||Associate Professor,Mechanical Engineering||Energy Institute||Materials Science and Engineering,https://scholars.library.tamu.edu/vivo/display/naeabbad3
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
Miladin,Radovic,Professor,"My research interests include: Processing of advanced ceramics and ceramics composites including ternary carbides and nitrides (MAX phases), Solid state ionics, inorganic polymers (Geopolymers) and their composites; High temperature materials for energy applications; Characterization and modeling of mechanical properties of ceramic and ceramic composites; and
Resonant Ultrasound Spectroscopy.",Associate Professor and Associate Department Head||Faculty Affiliate,Energy Institute||Materials Science and Engineering,https://scholars.library.tamu.edu/vivo/display/nb7b29b58
Perla,Balbuena,Professor,,University Distinguished Professor||Faculty Affiliate||Professor,Energy Institute||Chemical Engineering||Chemical Engineering,https://scholars.library.tamu.edu/vivo/display/nb82a0bc7
Ahmad,Amiri,Research Assistant Professor,"Dr. Amiri's current research focuses on energy materials, nanomaterials (specifically, 2D Materials), structural materials, and water treatments.",Faculty Affiliate,Energy Institute,https://scholars.library.tamu.edu/vivo/display/nb98c187f
Hamid,Toliyat,Professor,"I have gained broad industrial experience working as a researcher and a consultant for leading US and International agencies and companies on diverse fields of power electronics and electrical machines. More recently, I focused my attention to the next generation of high power to weight ratio electric powertrains for aerospace applications. I work closely with my colleagues across various engineering disciplines as my field of expertise is multidisciplinary and requires collaboration among different fields in order to push the boundaries of technology.",Professor||Faculty Affiliate,Energy Institute||Electrical and Computer Engineering,https://scholars.library.tamu.edu/vivo/display/nbace7865
Michael,Nippe,Associate Professor,"Our research focuses on inorganic molecular approaches to contribute to the development of novel systems for solar to energy conversion, small molecule activation, and molecules for information storage. Synthetic methods build the foundation of the group and are complimented by a broad array of spectroscopic and electrochemical techniques.
We are seeking students who are interested in creative inorganic synthesis, structure-function relationships in catalysis, electronic structure of heterometallic d-block/f-block complexes, and molecular species with unusual charges.",Faculty Affiliate||Associate Professor,Energy Institute||Chemistry,https://scholars.library.tamu.edu/vivo/display/nbcad74f5
Jack,Baldauf,Senior Associate Vice President for Research,"Synergistic Activities: Neogene Pacific paleoceanography with focus on understanding variation in production, export productivity and dissolution and the relationship to climate change and the CO2 cycle.
Understanding climate change by translating global processes to local consequences and mitigations. Emphasis placed on education of educators, students and policy and decision makers.
Themes: Paleoceanography, Phytoplankton productivity, Diatoms and biotic response to climate variability, Carbon cycle, Biosiliceous sedimentation, Micropaleontology, and Biostratigraphy",Faculty Affiliate||Professor||Senior Associate Vice President for Research||Executive Associate Dean,Geology and Geophysics||Oceanography||Energy Institute||Office of the Provost and Executive Vice President,https://scholars.library.tamu.edu/vivo/display/nbeae09a3
M Cynthia,Hipwell,Professor,"ensors, actuators, materials and metrology based upon nanoscale and surface phenomena. Nanoscale energy transport and tribology of devices. Advanced additive manufacturing: two component mixture printing, voxel level material property control, mechanical bioprinting enablers. Innovation business processes, technology and technology platforms to speed the innovation process.",Faculty Affiliate||Professor,Mechanical Engineering||Institute for Engineering Education and Innovation,https://scholars.library.tamu.edu/vivo/display/nc253a16d
Ibrahim,Karaman,Professor and Head,,Faculty Affiliate||Professor and Head,Energy Institute||Materials Science and Engineering,https://scholars.library.tamu.edu/vivo/display/nc3b0b0fe
Mark,Holtzapple,Professor,"Our group is dedicated to the research and development of the sustainable and renewable technologies which, when implemented on a commercial scale, will impact future fuel, chemical, food, and water production.",Faculty Affiliate||Professor,Energy Institute||Chemical Engineering,https://scholars.library.tamu.edu/vivo/display/nd303ef41
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
Mehrdad,Ehsani,Professor,"I conduct research in the areas of sustainable power and energy systems, power electronics, motor drives, electric and hybrid vehicles, Superconductive Magnetic Storage (SMES), aerospace power systems, specialized power systems, control systems, energy storage systems, High Voltage Direct Current (HVDC) Power Transmission, applications of microcomputers to power control, pulsed power systems, and high voltage engineering and electrical failures and hazards.",Professor||Faculty Affiliate,Energy Institute||Electrical and Computer Engineering,https://scholars.library.tamu.edu/vivo/display/nd6df91de
Lei,Fang,Associate Professor,"The multi-disciplinary research programs in the Fang Group will focus on the bottom-up synthesis and processing of novel organic polymer materials -- namely, ladder and coplanar polymers, as well as microporous polymer networks -- for the applications on electronics and energy conversion/storage. Our thrust will be to gain profound understanding on the structure-property relationship of these materials at both the molecular and the macroscopic levels by employing the toolboxes of synthetic chemistry and device engineering. With this knowledge, we aim to establish a series of synthetically feasible, high performing, processable organic carbon-based material systems for field effect transistors, light emitting diodes, solar cells, supercapacitors, and batteries, and to be at the forefront in the enhancement of their efficiencies.",Faculty Affiliate||Associate Professor||Associate Professor,Energy Institute||Materials Science and Engineering||Chemistry,https://scholars.library.tamu.edu/vivo/display/ne3bd8752
Ding,Zhu,Professor,"Dr. Zhu's research areas are production, well stimulation, intelligent well and complex well-performance optimization. She has been a PI for many government-funded projects and JIPs. Dr. Zhu is author of more than 130 technical papers, co-author of the text book Petroleum Production Systems, and co-author of a Society of Petroleum Engineers' (SPE) book, Multilateral Wells. She was a Distinguished Lecturer for SPE in 2012-2013. She has been a committee member and chairperson for many conferences and events with SPE, and is currently an associate editor for the SPE Production and Operation Journal. She is a Distinguished Member of SPE.",Faculty Affiliate||Professor,Energy Institute||College of Engineering,https://scholars.library.tamu.edu/vivo/display/ne43818fa
David,Bergbreiter,Professor,"Our group explores new chemistry related to catalysis and polymer functionalization using the tools and precepts of synthetic organic chemistry to prepare functional oligomers or polymers that in turn are used to either effect catalysis in a greener, more environmentally benign way or to more efficiently functionalize polymers. Often this involves creatively combining the physiochemical properties of a polymer with the reactivity of a low molecular weight compound to form new materials with new functions. These green chemistry projects involve undamental research both in synthesis and catalysis but has practical aspects because of its relevance to practical problems.
A common theme in our catalysis studies is exploring how soluble polymers can facilitate homogeneous catalysis. Homogeneous catalysts are ubiquitously used to prepare polymers, chemical intermediates, basic chemicals and pharmaceuticals. Such catalysts often use expensive or precious metals or expensive ligands or are used at relatively high catalyst loadings. The products often contain traces of these catalysts or ligands - traces that are undesirable for esthetic reasons or because of the potential toxicity of these impurities. Both the cost of these catalysts of these issues require catalyst/product separation - separations that often are inefficient and lead to chemical waste. These processes also use volatile organic solvents - solvents that have to be recovered and separated. Projects underway in our lab explore how soluble polymers can address each of these problems. Examples of past schemes that achieve this goal in a general way as highlighted in the Figure below.
We also use functional polymers to modify existing polymers. Ongoing projects involve molecular design of additives that can more efficiently modify polymers' physical properties. We also use functional polymers in covalent layer-by-layer assembly to surface polymers' surface chemistry.",Faculty Affiliate||Professor,Energy Institute||Chemistry,https://scholars.library.tamu.edu/vivo/display/nf01e95dd
Amine,Benzerga,Professor,Amine Benzerga's research focuses on the deformation and fracture of advanced materials used in transportation and power generation systems; nanomechanics; and computational mechanics of materials.,Faculty Affiliate||Professor||Director||Professor,Center for Intelligent Multifunctional Materials and Structures||Aerospace Engineering||Energy Institute||Materials Science and Engineering,https://scholars.library.tamu.edu/vivo/display/nf13b335b
Jaime,Grunlan,Professor,"Broadly speaking, our research is focused on polymers and nanocomposites with protective properties that rival metals and ceramics, while maintaining beneficial polymer mechanical behavior. We are particularly interested in the development of multifunctional surfaces prepared using the layer-by-layer assembly and polyelectrolyte complexation. Nearly everything we produce is water-based and sustainable polymers and nanoparticles are also important. We are very active in gas/moisture barrier for food packaging and environmentally benign flame retardant treatments for foam, fabric, wood, etc. Heat shielding for hypersonics, antimicrobial, and anti-corrosion coatings are also of interest.",Faculty Affiliate||Professor||Professor||Professor,Mechanical Engineering||Energy Institute||Materials Science and Engineering||Chemistry,https://scholars.library.tamu.edu/vivo/display/nf6b135dd
Zivko,Nikolov,Professor and Associate Department Head,"Nikolov's Bioseparations Lab conducts transformative research in bioprocess engineering aimed at the development of novel and cost-effective strategies for extraction and purification of recombinant and native biomolecules. Bioseparations Lab leverages scientific and engineering expertise of lab members to find solutions for a variety of bioprocessing and separations challenges that currently face plant and algal biotechnology. To guide early process development and identify constraints posed by biological system and final product lab members use process simulation. Past and current research projects directed by Dr. Nikolov include industrial protein products derived from rice, sugarcane, tobacco, Lemna minor, and microalgae.",Faculty Affiliate||Professor and Associate Department Head,Biological and Agricultural Engineering||Energy Institute,https://scholars.library.tamu.edu/vivo/display/nf84893f5
Miroslav,Begovic,Professor and Head,"My research interests lie in wide area monitoring, protection and emergency control using smart grid apparatus; sustainable and resilient energy infrastructures; and managing large assets in energy infrastructure.","Department Head, Carolyn S. and Tommie E. Lohman Professor||Faculty Affiliate",Energy Institute||Electrical and Computer Engineering,https://scholars.library.tamu.edu/vivo/display/nfac5a8b0
Rabi,Mohtar,Professor,,Professor||Professor||Faculty Affiliate,Civil Engineering||Biological and Agricultural Engineering||Energy Institute,https://scholars.library.tamu.edu/vivo/display/nfb7c25ed
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