Guide to Graduate Study in Area V: Materials and Devices
Area V Faculty and Staff: Research Interests and Information
| name | phone | office | |
|---|---|---|---|
| Akinwande, A.I. | 8-7974 | akinwand@mtl.mit.edu | 39-553A |
| Display devices, vacuum microelectronic devices, and wide bandgap semiconductor devices. http://mtlweb.mit.edu/~akinwand/ | |||
| Antoniadis, D.A. | 3-4693 | antoniadis@mtl.mit.edu | 39-415B |
| Electronic devices for integrated circuits. Emphasis on high-performance Field-Effect Transistors (FETs) with extreme submicrometer feature dimensions and incorporating novel channel materials. http://mtlweb.mit.edu/~daa/ | |||
| Baldo, M. | 2-5132 | baldo@mit.edu | 13-3053 |
| Energy and charge transport in amorphous organic materials. Microscopic processes in small-molecular materials. High efficiency phosphorescence and sensitized flourescence. Macroscopic process of charge transport and injection in amorphous organic semiconductors. A new model will be proposed that includes disorder at the metal/organic injection contact. http://www.rle.mit.edu/rleonline/People/MarcA.Baldo.html | |||
| Berggren, K. | 4-0272 | berggren@mit.edu | 36-219 |
| Methods of nanostructure fabrication applied to superconductive quantum circuits, photodetectors, and superconductive electronics; quantum computing; and evolvable hardware. http://www.rle.mit.edu/rleonline/People/KarlK.Berggren.html | |||
| Boning, D.S. | 3-0931 | boning@mit.edu | 39-567B |
| Semiconductor Manufacturing. Metrology and modeling of IC process, device and interconnect variation. Process control for variation reduction. Computer tools and systems for IC process and device design. http://mtlweb.mit.edu/~boning/ |
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| Bulovic, V. | 3-7012 | bulovic@mit.edu | 13-3138 |
| Physical properties of organic thin films, structures, and devices applied to the development of optoelectronic, electronic, and photonic organic devices of nano-scale thickness, including visible LEDs, lasers, solar cells, photodetectors, transistors, and flexible and transparent optoelectronics. http://www.rle.mit.edu/rleonline/People/VladimirBulovic.html | |||
| Chandrakasan | 8-7619 | anantha@mtl.mit.edu | 38-107 |
| Energy efficient implementation of digital integrated circuits for systems such as distributed wireless microsensors and portable mutlimedia devices, the development of protocols and algorithms for wireless communication, and design methodologies for emerging technology. http://mtlweb.mit.edu/~anantha/ | |||
| del Alamo, J.A. | 3-4764 | alamo@mit.edu | 38-567A |
| Device physics and technology of transistors for high-frequency power applications. Emphasis on III-V high electron mobility transistors and Si MOSFETs on SOI. http://mtlweb.mit.edu/~alamo/ | |||
| Dresselhaus, M.S. | 3-6864 | millie@mgm.mit.edu | 13-3005 |
| Electronic materials engineering. Electronic, lattice, structural properties. Semimetals, semiconductors, metals, intercalation compounds. Fullerenes. Carbon nanotubes. Magnetic semiconductors. http://mgm.mit.edu/ | |||
| Fonstad, C.G. | 3-4634 | fonstad@mit.edu | 13-3050 |
| Compound semiconductor heterostructures, devices, and physics. Optoelectronic devices and monolithic optoelectronic integration technologies and applications, and optoelectronic VLSI. Microscale thermophotovoltaics. Molecular beam epitaxy. http://web.mit.edu/fonstad/www/home.html | |||
| Gray, M.L. | 8-8974 | mgray@mit.edu | E25-519 |
| Electrical, mechanical and chemical mediators of connective tissue growth and development. Ion partitioning and transport in biological tissues. Magnetic resonance spectroscopy and imaging. Development of micromachined tools for biological applications. http://hst.mit.edu/public/people/faculty/facultyBiosketch.jsp?key=Gray | |||
| Han, J. | 3-2290 | jyhan@mit.edu | 36-841 |
| Application of micro/nanofabrication to biolomolecule manipulation. Micro/nanofluidics. Biomolecules sorting / preconcentration / processing using nanofluidic filters. Micro-Total-Analysis Systems, Stochastic motion of biomolecules in confined space. Transport of molecules through nanospace. http://www.rle.mit.edu/rleonline/People/JongyoonHan.html | |||
| Hoyt, J.L. | 2-2873 | jlhoyt@mtl.mit.edu | 39-427A |
| Novel processes, materials and device concepts for silicon technology. Device physics of silicon-based heterostructures and nanostructures. Epitaxial growth by chemical vapor deposition. http://mtlweb.mit.edu/~jlhoyt/ | |||
| Hu, Q. | 3-1573 | qhu@mit.edu | 36-365 |
| Physics and application of millimeter-wave, THz, and infrared devices, including THz and infrared solid-state lasers and micromachined millimeter wave focal-plane sensor arrays. http://www.rle.mit.edu/rleonline/People/QingHu.html | |||
| Kolodziejski, L.A. | 3-6868 | leskolo@mit.edu | 36-287 |
| Compound semiconductor materials, novel heterostructures, devices and device physics. Heteroepitaxial growth processes and advanced fabrication technology. Optoelectronics and photonic devices. Photonic crystal technology. http://www.rle.mit.edu/rleonline/People/LeslieA.Kolodziejski.html | |||
| Kong, J.A. | 4-4068 | jingkong@mit.edu | 13-3065 |
| Carbon nanotubes: synthesis and Electronic devices. http://www.rle.mit.edu/rleonline/People/JingKong.html | |||
| Lang, J.H. | 3-4687 | lang@mit.edu | 10-176 |
| Analysis, design and control of pysical systems. Applications include traditional electric machines, microsensors, microactuators and flexible structures. Digital control and manufacturing. http://lees.mit.edu/lees/lang_j.htm | |||
| Lee, H-S. | 3-5174 | hslee@mtl.mit.edu | 39-553A |
| Research in analog integrated circuits in CMSO and BiCMOS technologies. Implementation of early vision algorithms in CCD and resistive fuse circuits. http://www-mtl.mit.edu/researchgroups/hslee/ | |||
| Orlando, T.P. | 3-5888 | orlando@mit.edu | 13-3006 |
| Quantum computation with superconductors. Superconducting devices and materials. Nonlinear dynamics of Josephson Junction Arrays. http://www.rle.mit.edu/rleonline/People/TerryPOrlando.html | |||
| Palacios, T. | 4-2395 | tpalacios@mit.edu | 39-567B |
| Design, fabrication and characterization of novel electronic devices in wide bandgap semiconductors; polarization and bandgap engineering; transistors for sub-mm wave power and digital applications; new ideas for power conversion and generation; interaction of biological systems with semiconductor materials and devices. http://web.mit.edu/tpalacios/ | |||
| Petrich, G.S. | 3-5020 | gpetrich@mit.edu | 36-293 |
| Compound semiconductor materials, novel heterostructures and devices, Heteroepitaxial growth processes with real time control. Optoelectronics and photonic devices. Photonic crystal technology. http://www.rle.mit.edu/rleonline/People/GaleSPetrich.html | |||
| Ram, R. | 8-4182 | rajeev@mit.edu | 36-487 |
| Novel semiconductor lasers for advanced fiber optic communications. Study of fundamental interactions between electronic materials and light. http://www.rle.mit.edu/rleonline/People/RajeevJRam.html | |||
| Reif, L.R. | 3-4500 | reif@mit.edu | 3-208 |
| Integrated circuit fabrication technology. New process technologies for VLSI. Three-dimensional integration. Environmentally-benign semiconductor manufacturing. http://www-mtl.mit.edu/~reif/ |
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| Sawin, H.H. | 3-4570 | hhsawin@mit.edu | 66-568 |
| Characterization, use, and modeling of plasma etching processes used in microelectronics fabrication; plasma physics, plasma chemistry, gas-solid reactions and ion-induced surface processes. http://web.mit.edu/cheme/people/faculty/sawin.html | |||
| Schmidt, M.A. | 3-7817 | schmidt@mtl.mit.edu | 39-521 |
| Micromechanical systems (MEMS). Design of micromechanical sensors and actuators. Microfabrication technology. http://www-mtl.mit.edu/mems/ |
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| Smith, H.I. | 3-6865 | hismith@nano.mit.edu | 36-225 |
| Nanofabrication techniques and applications. Nanostructures. Nanolithography. Optoelectronic and deep-submicron devices. Optical communication. Microscopy. Atom-beam and x-ray optics. http://www.rle.mit.edu/rleonline/People/HenryI.Smith.html | |||
| Sodini, C. G. | 3-4938 | sodini@mit.edu | 39-527A |
| Technology intensive integrated circuit and systems design; application toward sensory interface electronics and wireless communication emphasizing analog signal processing and RF integrated circuits. http://www-mtl.mit.edu/researchgroups/sodini/ |
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| Voldman, J. | 3-2094 | voldman@mit.edu | 36-824 |
| Biological applications of microtechnology, especially to cell biology; bioMEMS; electrostatics at the microscale. http://www.rle.mit.edu/rleonline/People/JoelVoldman.html | |||
| Warde, C. | 3-6858 | warde@mtl.mit.edu | 13-3065 |
| Materials devices and systems for optical information processing. Integrated circuit neuro-processors; optical neural network algorithms and architectures; integrated spectropolarimetric imaging sensors; spatial light modulators; microdisplays. http://web.mit.edu/provost/sef-directory/profiles/e1000057.html | |||
| Yanik, M.F. | 3-1583 | yanik@mit.edu | 36-834 |
| Nano-photonics, multi-photon imaging, single molecule imaging, nano-manipulation, femtosecond nano-surgery, bio-sensing, photonic crystals, micro-cavities, neuron degeneration and regeneration, C. elegans. http://www.rle.mit.edu/rleonline/People/MehmetFatihYanik.html | |||