Photo of THERESA MAYER

THERESA MAYER

Adjunct Professor

Affiliation(s):

  • School of Electrical Engineering and Computer Science

N-229 Millennium Science Complex

tsm2@psu.edu

814-863-8458

Research Areas:

Interest Areas:

Nanotechnology, Nanofabrication, Directed self-assembly, Electronic and photonic devices.

 
 

 

Education

  • BS, Electrical Engineering, 1988
  • MS, Electrical Engineering, 1989
  • Ph D, Electrical Engineering, 1993

Publications

Book, Chapters

  • N. I. Kovtyukhova, B. R. Martin, J. K.N. Mbindyo, T. E. Mallouk, M. Cabassi, P. Smith, B. Razavi and T. S. Mayer, 2002, Layer-By-Layer Assembly of Nanotubes and Nanofilms from Nanoparticle and Polymer Blocks for Electronic Applications, Frontiers of Multifunctional Nanosystems, pp. 147-162

Parts of Book

  • Theresa S Mayer, J. S. Mayer and C. D. Keating, 2012, Dielectrophoretic Assembly of Nanowires and Nanoparticles, Springer Science

Journal Articles

  • S. Eichfeld, L. Hossain, L. Yu-Chuan, A. Piasecki, B. Kupp, A. G. Birdwell, R. Burke, N. Lu, X. Peng, J. Li, A. Azcatl, S. McDonnell, R. M. Wallace, M. J. Kim, T. S. Mayer, J. M. Redwing and J. A. Robinson, 2015, "Highly Scalable, Atomically Thin WSe2 grown via Metal-Organic Chemical Vapor Deposition", ACS Nano
  • H. Madan, M. Jerry, A. Pogrebnyakov, T. S. Mayer and S. Datta, 2015, "Quantitative Mapping of Phase Coexistence in Mott-Peierls Insulator during Electronic and Thermally Driven Phase Transition", ACS Nano
  • Z. H. Jiang, L. Lin, D. Ma, S. Yun, D. H. Werner, Z. Liu and T. S. Mayer, 2014, "Broadband and Wide Field-of-view Plasmonic Metasurface-enabled Waveplates", Scientific Reports, 4, pp. 7511
  • Y. C. Lin, N. Lu, N. Perea-Lopez, J. Li, Z. Lin, X. Peng, C. H. Lee, C. Sum, L. Calderin, P. N. Browing, M. S. Bresnehan, M. J. Kim, T. S. Mayer, M. Terrones and J. A. Robinson, 2014, "Direct Synthesis of van der Waals Solids", ACS Nano, 8, pp. 3715-3723
  • K. A. Richardson, T. S. Mayer and C. Rivero-Baleine, 2014, "Engineering Chalcogenide Materials: From Bulk Optics to CMOS-Compatible Microelectronic Integration", ECS Transactions, 61, pp. 73-79
  • J. L. Bossard, L. Lin, S. Yun, L. Liu, D. H. Werner and T. S. Mayer, 2014, "Near-Ideal Infrared Metamaterial Absorbers with Super-Octave Bandwidth", ACS Nano, 8, pp. 1517-1524
  • Y. C. Lin, C. Y. Chang, R. K. Ghosh, J. Li, H. Zhu, R. Addou, B. Diaconsecu, T. Ohta, X. Peng, N. Lu, M. J. Kim, J. T. Robinson, R. M. Wallace, T. S. Mayer, S. Datta, L. J. Datta and J. A. Robinson, 2014, "Atomically Thin Heterostructures Based on Single-Layer Tungsten Diselenide and Graphene", Nanoletters, 14, pp. 6936-6941
  • S. L. Dean, T. J. Morrow, S. Patrick, M. Li, G. A. Clawson, T. S. Mayer and C. D. Keating, 2013, "Biorecognition by DNA Oligonucleotides after Exposure to Photoresists and Resist Removers", Langmuir, 29, pp. 11535-11545
  • A. S. Hall, M. Faryad, G. D. Barber, L. Liu, S. Erten, T. S. Mayer, A. Lakhtakia and T. E. Mallouk, 2013, "Broadband Light Absorption with Multiple Surface Plasmon Polariton Waves", ACS Nano, 7, pp. 4995-5007
  • S. Yun, F. Namin, D. H. Werner, T. S. Mayer, C. Bungay, C. Rivero-Baleine and L. Zhang, 2013, "Demonstration of a Nearly Ideal Wavelength-Selective Optical Mirror using a Metamaterial-Enabled Dielectric Coating", Applied Physics Letters, 102, pp. 171114
  • S. Yun, Z. H. Jiang, D. Ma, Z. W. Liu, D. H. Werner and T. S. Mayer, 2013, "Experimental Verification of Substrate-Induced Bianisotropy in Optical Metamaterials", Applied Physics Letters, 103, pp. 233109
  • D. Won, X. J. Weng, Y. A. Yuwen, Y. Ke, C. Kendrick, H. T. Shen, T. S. Mayer and J. M. Redwing, 2013, "GaN Growth on Si Pillar Arrays by Metalorganic Chemical Vapor Deposition", Journal of Crystal Growth, 370, pp. 259-264
  • Z. H. Jiang, S. Yun, L. Lin, J. A. Bossard, D. H. Werner and T. S. Mayer, 2013, "Tailoring Dispersion for Broadband Low-loss Optical Metamaterials Using Deep-subwavelength Inclusions", Scientific Reports, 3, pp. 1571
  • J. A. Sioss, R. Bhiladvala, W. Pan, M. Li, S. Patrick, P. Xin, S. L. Dean, C. D. Keating, T. S. Mayer and G. Clawson, 2012, "A Nanoresonator Chip-Based RNA Sensor Strategy for Detection of Circulating Tumor Cells: Response using DD3 as a Prostate Cancer Marker", Nanomedicine, 8, pp. 1017-1025
  • D. Mohata, B. Rajamohanan, T. S. Mayer, M. Hudait, J. Fastenau, D. Lubyshev, A. Liu and S. Datta, 2012, "Barrier-Engineering Arsenide-Antimonide Heterojunction Tunnel FETs with Enhanced Drive Current", IEEE Electron Device Letters, 33, pp. 1568-1570
  • D. D. Vaughn, D. Sun, S. M. Levin, A. J. Biacchi, T. S. Mayer and R. E. Schaak, 2012, "Colloidal Synthesis and Electrical Properties of GeSe Nanobelts", Chemistry of Materials, 24, pp. 3643-3649
  • B. D. Smith, T. S. Mayer and C. D. Keating, 2012, "Deterministic Assembly of Functional Nanostructures using Nonuniform Electric Fields", Annual Reviews in Physical Chemistry, 63, pp. 241-263
  • S. Yun, Z. H. Jiang, Q. Xu, Z. W. Liu, D. H. Werner and T. S. Mayer, 2012, "Low-Loss Impedance-Matched Optical Metamaterials with Zero-Phase Delay", ACS Nano, 6, pp. 4475-4482
  • Z. H. Jiang, S. Yun, F. Toor, D. H. Werner and T. S. Mayer, 2011, "Conformal Dual-Band Near-Perfectly Absorbing Mid-Infrared Metamaterial Coating", ACS Nano, 5, pp. 4641-4647
  • V. Koval, S. S.N. Bharadwaja, M. Li, T. S. Mayer and S. Trolier-McKinstry, 2011, "Dielectrophoretic Assembly of Lead Zirconate Titanate Microtubes", Solid State Electronics, 151, pp. 1990-1993
  • D. Mohata, S. Mookerjea, A. Agrawal, Y. Y. Li, T. Mayer, V. Narayanan, A. Liu, D. Loubychev, J. Fasteneau and S. Datta, 2011, "Experimental Staggered-Source and N plus Pocket-Doped Channel III-V Tunnel Field-Effect Transistors and their Scalabilities", Applied Physics Express, 4
  • K. O. Sarpatwari, O. Awadelkarim, L. J. Passmore, T. T. Ho, M. W. Kuo, N. S. Dellas, T. S. Mayer and S. E. Mohney, 2011, "Low-Frequency Three-Terminal Charge Pumping Applied to Silicon Nanowire Field-Effect Transistors", IEEE Transactions on Nanotechnology, 10, pp. 871-874
  • Y. Ke, X. Wang, X. J. Weng, C. E. Kendrick, Y. A. Yu, S. M. Eichfeld, H. P. Yoon, J. M. Redwing, T. S. Mayer and Y. M. Habib, 2011, "Single Wire Radial Junction Photovoltaic Devices Fabricated Using Aluminum Catalyzed Silicon Nanowires", Nanotechnology, 22, pp. 445401
  • S. Mookerjea, D. Mohata, Theresa S Mayer, V. Narayanan and S. Datta, 2010, "Temperature-Dependent I-V Characteristics of a Vertical In0.53Ga0.47As Tunnel FET", IEEE Electron Device Letters, 31, (6), pp. 564-566
  • S. Yun, J. bossard, D. H. Werner and T. S. Mayer, 2010, "Angle and Polarization Tolerant Mid-Infrared Dielectric Filter Designed by Genetic Algorithm", Applied Physics Letters, 96, pp. 223101:1-3
  • H. Yoon, M. M. Maitani, O. M. Cabarcos, L. Cai, T. S. Mayer and D. L. Allara, 2010, "Crossed- Nanowire Molecular Junctions: A New Multi-Spectroscopy Platform for Conduction-Structure Correlations", Nanoletters, 10, pp. 2897-2902
  • H. Yoon, Y. Yuwen, C. E. Kendrick, G. D. Barber, N. J. Podraza, J. M. Redwing, T. E. Mallouk, C. R. Wronski and T. S. Mayer, 2010, "Enhanced Conversion Efficiencies for Pillar Array Solar Cells Fabricated from Crystalline Silicon with Short Minority Carrier Diffusion Lengths", Applied Physics Letters, 96, pp. 213503: 1-3
  • A. L. Vallett, S. Minassian, P. Kaszuba, S. Datta, J. M. Redwing and T. S. Mayer, 2010, "Fabrication and Characterization of Axially Doped Silicon Nanowire Tunnel Field-Effect Transistors", Nanoletters, 10, pp. 4813-4818
  • S. S.N. Bharadwaja, X. Li, P. J. Moses, T. S. Mayer and S. Trolier-McKinstry, 2010, "Ferroelectric-Ferroelastic Domain Switching in Unconstrained Pb(Zr,Ti)O3 Microtubes with Submicron Wall Thickness", IEEE Transactions on Ultrasonics, Ferroelectrics, and Frequency Control, 57, pp. 792-800
  • R. A. Burke, X. J. Weng, M. W. Kuo, Y. W. Song, A. M. Itsuno, T. S. Mayer, S. M. Durbin, R. J. Reeves and J. M. Redwing, 2010, "Growth and Characterization of Unintentionally Doped GaSb Nanowires", Journal of Electronic Materials, 39, pp. 355-364
  • C. E. Kendrick, H. P. Yoon, Y. A. Yuwen, G. D. Barber, H. T. Shen, T. E. Mallouk, E. C. Dickey, T. S. Mayer and J. M. Redwing, 2010, "Radial Junction Silicon Wire Array Solar Cells Fabricated by Gold-Catalyzed Vapor-Liquid-Solid Growth", Applied Physics Letters, 97, pp. 143108
  • S. Mookerjea, D. Mohata, T. S. Mayer, V. Narayanan and S. Datta, 2010, "Temperature-Dependent I-V Characteristics of a Vertical In0.53Ga0.47As Tunnel FET", IEEE Electron Device Letters, 31, pp. 564-566
  • N. S. Dellas, B. Z. Liu, T. S. Mayer and S. E. Mohney, 2009, "Orientation Dependence of Nickel Silicide Formation in Contacts to Silicon Nanowires", Journal of Applied Physics, 105, pp. 094309-1-094309-7
  • T. J. Morrow, M. Li, J. Kim, T. S. Mayer and C. D. Keating, 2009, "Programmed Assembly of DNA-coated Nanowire Devices", Science, 232, pp. 352
  • J. A. Bossard, S. Yun, D. H. Werner and T. S. Mayer, 2009, "Synthesizing Low Loss Negative Index Metamaterial Stacks for the Mid-Infrared Using Genetic Algorithms", Optics Express, 17, pp. 14771-14779
  • B. Dume and Theresa S Mayer, 2008, "Nanowire Arrays Think Big"
  • M. Li, R. B. Bhiladvala, T. Morrow, J. Sioss, K. K. Lew, J. M. Redwing, C. D. Keating and T. S. Mayer, 2008, "Bottom-up Assembly of Large-area Nanowire Resonator Arrays", Nature Nanotechnology, 3, pp. 88-92
  • C. Highstrete, M. Lee, A. L. Vallett, S. M. Eichfield, J. M. Redwing and T. S. Mayer, 2008, "Disorder Effects in the Microwave Conductance Spectra of n-type Silicon Nanowire Arrays", Nanoletters, 8, pp. 1557-1561
  • Y. Cao, A. E. Kovalev, J. Kim, T. S. Mayer and T. E. Mallouk, 2008, "Electrical Transport and Chemical Sensing Properties of Individual Conducting Polymer Nanowires", Nanoletters, 8, pp. 4653-4658
  • T. T. Ho, Y. Wang, S. Eichfeld, K. K. Lew, B. Liu, S. E. Mohney, J. M. Redwing and T. S. Mayer, 2008, "In-situ Axially-doped n-channel Silicon Nanowire Field Effect Transistors", Nanoletters, 8, pp. 4359-4364
  • S. M. Woodruff, N. S. Dellas, B. Z. Liu, S. M. Eichfeld, T. S. Mayer, J. M. Redwing and S. E. Mohney, 2008, "Nickel and Nickel Silicide Schottky Barrier Contacts to n-type Silicon Nanowires", Journal of Vacuum Science and Technology B, 26, pp. 1592-1596
  • B. Liu, T. T. Ho, S. Eichfeld, J. R. Redwing, T. S. Mayer and S. E. Mohney, 2008, "Oxidation of Silicon Nanowires for Top-gated Field Effect Transistors", Journal of Vacuum Science and Technology A, 26, pp. 370-374
  • Y. Tang, J. A. Bossard, D. H. Werner and T. S. Mayer, 2008, "Single-Layer Metallodielectric Nanostructures as Dual-Band Mid-Infrared Filters", Applied Physics Letters, 92, pp. 263106/1-3
  • J. A. Bossard, X. Liang, L. Li, S. Yun, D. H. Werner, B. Weiner, T. S. Mayer, P. F. Cristman, A. Diaz and I. C. Khoo, 2008, "Tunable Frequency Selective Surfaces and Negative-Zero-Positive Index Metamaterials Based on Liquid Crystals", IEEE Transactions on Antennas and Propagation, 56, pp. 1308-1320
  • S. M. Eichfeld, T. T. Ho, C. M. Eichfeld, A. Crammor, S. E. Mohney, T. S. Mayer and J. M. Redwing, 2007, "Resistivity Measurements of Template-grown Intentionally and Unintentionally Doped Silicon Nanowire Arrays", Nanotechnology, 18, pp. 315201/1-4
  • B. Liu, Y. Wang, S. Dilts, T. S. Mayer and S. M. Mohney, 2007, "Silicidation of Silicon Nanowires by Palladium", Nanoletters, 7, pp. 818-824
  • M. Li, R. B. Bhiladvala, J. Sioss, C. D. Keating and T. S. Mayer, 2007, "Template-grown Metal Nanowires: Resonator Performance and Modulus", Nanoletters, 7, pp. 3281-3284
  • P. P. Zhang, T. S. Mayer and T. N. Jackson, 2007, "Tour de Force Multigate and Nanowire Metal Oxide Semiconductor Field-Effect Transistors and their Application", American Chemical Society NANO, 1, pp. 9-Jun
  • P. P. Zhang, T. S. Mayer and T. N. Jackson, 2007, "Tour de Force Multigate and Nanowire Metal Oxide Semiconductor Field-Effect Transistors and Their Application", ACS Nano, 1, (1), pp. 9-Jun
  • S. Kubo, A. Diaz, Y. Tang, T. S. Mayer, I. C. Khoo and T. E. Mallouk, 2007, "Tunability of the Refractive Index of Gold Nanoparticle Dispersions", Nanoletters, 7, pp. 3418-3423
  • L. Li, D. H. Werner, J. A. Bossard and T. S. Mayer, 2006, "A Model-based Parameter Estimation Technique for Wideband Interpolation of Periodic Moment Method Impedance Matricies with Application to Genetic Algorithm Optimization of Frequency Selective Surfaces", IEEE Transactions on Antennas and Propagation, 54, pp. 908-924
  • S. Bharadwaja, M. Olszta, S. T. McKinstry, X. Li, T. S. Mayer and F. Roozeboom, 2006, "Fabrication of High Aspect Ratio Ferroelectric Microtubes by Vacuum Infiltration of Macroporous Silicon Templates", Journal of American Ceramic Society, 89, pp. 2695-2701
  • I. Divliansky and T. S. Mayer, 2006, "Fabrication of Three-Dimensional Low-Index Contrast Photonic Crystals using a Tunable Beamsplitter", Nanotechnology, 17, pp. 1241-1244
  • H. Segawa, N. Abrams, T. E. Mallouk, I. Divliansky and T. S. Mayer, 2006, "Fabrication of TiO2- organic Hybrid Dot Arrays Using Laser Interference Holography", Journal American Ceramic Society, 89, pp. 3507-3510
  • B. Edwards, T. S. Mayer and R. B. Bhiladvala, 2006, "Synchronous Electrorotation of Nanowires in Fluid", Nanoletters, 6, pp. 626-632
  • J. A. Bossard, D. H. Werner, T. S. Mayer, J. A. Smith, Y. U. Tang, R. P. Drup and, L. Li , 2006, "The Design and Fabrication of Planar Multi-band Metallodielectric Frequency Selective Surfaces for Infrared Applications", IEEE Transactions on Antennas and Propagation, 54, pp. 1265-1276
  • J. A. Bossard, D. H. Werner, T. S. Mayer and R. P. Drupp, 2005, "A Novel Design Methodology for Reconfigurable Frequency Selective Surfaces Using Genetic Algorithms", IEEE Transactions on Antennas and Propagation, 53, pp. 1390-1400
  • S. Zalis, I. Kratochvilova, A. Zambova, J. Mbindyo, T. E. Mallouk and T. S. Mayer, 2005, "Combined Experimental and Theoretical DFT Study of Molecular Nanowires Negative Differential Resistance and Interaction with Gold Clusters", European Physics Journal E, 18, pp. 201-206
  • M. L. Tian, J. G. Wang, J. S. Kurtz, Y. Liu, T. S. Mayer, T. E. Mallouk and M. H.W. Chan, 2005, "Dissipation in Quasi-One-Dimensional Superconducting Single-Crystal Sn Nanowires", Physical Review B, 71
  • S. E. Mohney, Y. Wang, M. Cabassi, K. K. Lew, S. Dey, J. M. Redwing and T. S. Mayer, 2005, "Measuring the Specific Contact Resistance of Contacts to Semiconductor Nanowires", Solid State Electronics, 49, pp. 227-232
  • L. T. Cai, M. A. Cabassi, H. Yoon, O. M. Cabarcos, C. L. McGuiness, A. K. Flatt, D. L. Allara, J. M. Tour and T. S. Mayer, 2005, "Reversible Bistable Switching in Nanoscale Thiol- Substituted Oligoaniline Molecular Junctions", Nanoletters, 5, pp. 2365-2372
  • R. P. Drupp, J. A. Bossard, D. H. Werner and T. S. Mayer, 2005, "Single-layer Multi-band Infrared Metallodielectric Photonic Crystals Designed by Genetic Algorithm Optimization", Applied Physics Letters, 86, pp. 081102-1-081102-3
  • Y. Wang, T. T. Ho, T. S. Mayer, K. K. Lew, L. Pan, E. C. Dickey and J. M. Redwing, 2005, "Synthesis and Electrical Characterization of Phosphine-doped Silicon Nanowires", Nanoletters, 5, pp. 2139-2143
  • Y. Selzer, L. Cai, M. A. Cabassi, Y. Yao, J. M. Tour, T. S. Mayer and D. L. Allara, 2005, "The Effect of Local Environment on Molecular Conduction: Isolated Molecule versus Self- Assembled Monolayer", Nanoletters, 5, pp. 61-65
  • S. Evoy, N. DiLello, V. Deshpande, A. Narayanan, H. Liu, M. Riegelman, B. R. Martin, B. Hailer, J. C. Bradley, W. Weiss, T. S. Mayer, Y. Gogotsi, H. H. Bau, T. E. Mallouk and S. Raman, 2004, "Dielectrophoretic Assembly and Integration of Nanowire Devices with Functional CMOS Operating Circuitry", Microelectronic Engineering, 75, pp. 31-42
  • R. P. Drupp, J. A. Bossard, Y. H. Ye, D. H. Werner and T. S. Mayer, 2004, "Dual-band Infrared Metallodielectric Photonic Crystals", Applied Physics Letters, 85, pp. 1835-1837
  • J. G. Kushmerick, D. L. Allara, T. E. Mallouk and T. S. Mayer, 2004, "Electrical and Spectroscopic Characterization of Molecular Junctions", Materials Research Society Bulletin, 29, (6), pp. 396-402
  • L. Cai, H. Skulason, J. Kusmerick, S. Pollack, J. Naciri, R. Shashidhar, D. L. Allara, T. E. Mallouk and T. S. Mayer, 2004, "Nanowire-based Molecular Monolayer Junctions: Synthesis, Assembly, and Electrical Characterization", Journal of Physical Chemistry B, 108, pp. 2827-2832
  • K. K. Lew, L. Pan, T. Bogart, S. M. Dilts, E. C. Dickey, J. M. Redwing, Y. Wang, M. Cabassi, T. S. Mayer and S. W. Novak, 2004, "Structural and Electrical Properties of Trimethylboron-doped Silicon Nanowires", Applied Physics Letters, 85, pp. 3101-3103
  • Y. Selzer, M. A. Cabassi, T. S. Mayer and D. L. Allara, 2004, "Temperature Effects on Conduction Through a Molecular Junction", Nanotechnology, 15, pp. S483-488
  • Y. Selzer, M. A. Cabassi, T. S. Mayer and D. L. Allara, 2004, "Thermally Activated Conduction in Molecular Junctions", Journal of American Chemical Society, 126, pp. 4052-4053
  • I. B. Divliansky, T. S. Mayer, K. S. Holliday and V. H. Crespi, 2003, "Fabrication of Three- Dimensional Polymer Photonic Crystal Structures using Single Diffraction Element Interference Lithography", Applied Physics Letters, 82, pp. 1667-1669
  • Y. H. Ye, D. Y. Jeong, T. S. Mayer and Q. M. Zhang, 2003, "Finite-size Effect on Highly Dispersive Photonic-Crystal Optical Components", Applied Physics Letters, 82, pp. 2380-2382
  • A. Amma, B. Razavi, S. K. St Angelo, T. S. Mayer and T. E. Mallouk, 2003, "Synthesis, Chemical Modification, and Surface Assembly of Carbon Nanowires", Advanced Functional Materials, 13, pp. 365-370
  • L. Zambov, A. Zambova, M. Cabassi and T. S. Mayer, 2003, "Template-Directed CVD of Dielectric Nanotubes", Chemical Vapor Deposition, 9, pp. 26-33
  • N. I. Kovtyukhova, T. E. Mallouk and T. S. Mayer, 2003, "Templated Surface Sol-gel Synthesis of SiO2 Nanotubes and SiO2-insulated Metal Nanowires", Advanced Materials, 15, pp. 780
  • N. I. Kovtyukhova, B. R. Martin, J. K.N. Mbindyo, T. E. Mallouk, M. Cabassi and T. S. Mayer, 2002, "Layer-by-layer self-assembly strategy for template synthesis of nanoscale devices", Materials Science and Engineering C ? Biomimetic and Supermolecular Systems, 19, pp. 255-262
  • I. Kratochvilova, M. Kocirik, A. Zambova, J. Mbindyo, T. E. Mallouk and T. S. Mayer, 2002, "Room Temperature Negative Differential Resistance in Molecular Nanowires", Journal of Materials Chemistry, 12, pp. 2927-2930
  • Y. H. Ye, T. S. Mayer, I. C. Khoo, I. B. Divliansky, N. Abrams and T. E. Mallouk, 2002, "Self-Assembly of Three-dimensional Photonic Crystals with Air-Core Line Defects", Journal of Materials Chemistry, 12, pp. 3637-3639
  • D. J. Pena, J. K.N. Mbindyo, A. J. Carado, T. E. Mallouk, C. D. Keating, B. Razavi and T. S. Mayer, 2002, "Template Growth of Photoconductive Metal-CdSe-Metal Nanowires", Journal of Physical Chemistry B, 106, pp. 7458-7462
  • J. K.N. Mbindyo, T. E. Mallouk, J. B. Mattzela, I. Kratochvilova, B. Razavi, T. N. Jackson and T. S. Mayer, 2002, "Template Synthesis of Metal Nanowires Containing Monolayer Molecular Junctions", Journal of the American Chemical Society, 124, pp. 4020-4026
  • N. T. Moshegov, C. D. Nordquist, W. Z. Cai, T. S. Mayer, D. I. Lubyshev and D. L. Miller, 2001, "Combined silicon, beryllium, and carbon tetrabromide single-port dopant source for molecular-beam epitaxy", Journal of Vacuum Science and Technology B, 19, pp. 1541-1545
  • A. Shishido, I. B. Diviliansky, I. C. Khoo, T. S. Mayer, S. Nishimura, G. L. Egan and T. E. Mallouk, 2001, "Direct Fabrication of Two-dimensional Titania Arrays using Interference Photolithography", Applied Physics Letters, 79, pp. 3332-3334
  • W. Z. Cai, N. T. Moshegov, T. S. Mayer and D. L. Miller, 2001, "Electrical Properties of Molecular Beam Epitaxially Grown AlxGa1-xSbyAs1-y and its Application in InP-based High Electron Mobility Transistors", Journal of Vacuum Science and Technology B, 19, pp. 1529-1535
  • I. B. Divliansky, A. Shishido, I. C. Khoo, T. S. Mayer, D. Pena, S. Nishimura, C. D. Keating and T. E. Mallouk, 2001, "Fabrication of Two-Dimensional Photonic Crystals Using Interference Lithography and Electrodeposition of CdSe", Applied Physics Letters, 79, pp. 3392-3395
  • N. I. Kovtyukhova, B. R. Martin, J. K.N. Mbindyo, P. A. Smith, B. Razavi, T. S. Mayer and T. E. Mallouk, 2001, "Layer-by-layer Assembly of Rectifying Junctions in and on Metal Nanowires", Journal of Physical Chemistry B, 105, pp. 8762-8769
  • B. R. Martin, D. C. Furnange, T. N. Jackson, T. E. Mallouk and T. S. Mayer, 2001, "Selfalignment of Patterned Wafers using Capillary Forces at a Water-Air Interface", Advanced Functional Materials, 11, pp. 381-386
  • P. A. Smith, C. D. Nordquist, T. N. Jackson, T. S. Mayer, B. R. Martin, J. Mbindyo and T. E. Mallouk, 2000, "Electric Field Assisted Assembly and Alignment of Metallic Nanowires", Applied Physics Letters, 77, pp. 1399-1401
  • Y. Ren, M. Micovic, W. Z. Cai, S. Mohney, S. M. Lord, D. L. Miller and T. S. Mayer, 1999, "Effect of In-Situ Annealing on Highly-Mismatched In0.75Ga0.25As on InP Grown Using Molecular Beam Epitaxy", Journal of Electronic Materials, 28, pp. 887-893
  • L. Zavieh and T. S. Mayer, 1999, "Fabrication of a 3-D Simple Cubic Infrared Photonic Crystal", Applied Physics Letters, 17, pp. 2533-2535
  • D. Lubyshev, T. S. Mayer, W. Z. Cai and D. L. Miller, 1999, "Lattice Mismatched Molecular Beam Epitaxy on Compliant GaAs/AlxOy/GaAs Substrates Produced by Lateral Wet Oxidation", Journal of Crystal Growth, 201/202, pp. 643-647
  • C. Zhang, D. Lubyshev, T. N. Jackson, D. L. Miller and T. S. Mayer, 1999, "The Effect of Al0.7Ga0.3As Etch Stop Removal on the Preparation of Wafer-Bonded Compliant Substrates", Journal of the Electrochemical Society, 146, pp. 1597-1601
  • M. Micovic, D. E. Nordquist, D. Lubyshev, T. S. Mayer, D. L. Miller, R. W. Streater and A. J. SpringThorpe, 1998, "Fabrication of Heterojunction Bipolar Transistors with Buried Subcollector Layers for Reduction of Base-Collector Capacitance by Molecular Beam Epitaxy Regrowth", Journal of Vacuum Science and Technology B, 16, pp. 962-967
  • M. Micovic, D. E. Nordquist, D. Lubyshev, T. S. Mayer, D. L. Miller, R. W. Streater and A. J. SpringThorpe, 1998, "GaAs/AlGaAs Heterojunction Bipolar Transistors with a Base Doping 1020 cm-3 Grown by Solid-Source Molecular Beam Epitaxy Using CBr4", Journal of Vacuum Science and Technology B, 16, pp. 972-976
  • A. Mitra, C. D. Nordquist, T. N. Jackson and T. S. Mayer, 1998, "Magnetron Ion Etching of Through-Wafer Via Holes for GaAs Monolithic Microwave Integrated Circuits Using SiCl4", Journal of Vacuum Science and Technology B, 16, pp. 2695-2698
  • L. Zavieh, C. D. Nordquist and T. S. Mayer, 1998, "Optimization of In0.53Ga0.47As Reactive Ion Etching with CH4/H2 Using Design of Experiment Methods", Journal of Vacuum Science and Technology B, 16, pp. 1024-1029
  • M. Madhav, M. Ghosh and T. S. Mayer, 1997, "Improvements in Fibre Alignment Tolerance Using Chemically Etched Monolithically Integrated Microlenses on InGaAs:InP pin Photodetectors", Electronics Letters, 33, pp. 891-892
  • R. Kochhar, W. H. Hwang, M. Micovic, T. S. Mayer, D. L. Miller and S. M. Lord, 1997, "Molecular Beam Epitaxy of In0.74Ga0.26As on InP for Near Infrared Detectors", Journal of Vacuum Science and Technology B, 15, pp. 316-320
  • T. S. Mayer, Z. G. Ling, J. A. Cooper and M. R. Melloch, 1994, "Generation and Minority- Carrier Leakage Along GaAs Surfaces", Journal of Applied Physics, 75, pp. 2098-2104
  • T. S. Mayer, D. M. Fleetwood, D. E. Beutler, J. A. Cooper and M. R. Melloch, 1993, "Unexpected Increase in the Thermal Generation Rate of Bulk GaAs Due to Electron-Beam Metallization", IEEE Transactions on Nuclear Science, 40, pp. 1293-1299
  • T. B. Stellwag (Mayer), J. A. Cooper and M. R. Melloch, 1992, "A Vertically-Integrated GaAs Bipolar Dynamic RAM Cell with Storage Times of 4.5 Hours at Room Temperature", IEEE Electron Device Letters, 13, pp. 129-131
  • T. B. Stellwag (Mayer), M. R. Melloch, J. A. Cooper, S. T. Sheppard and D. D. Nolte, 1992, "Increased Thermal Generation Rate in GaAs Due to Electron-Beam Metallization", Journal of Applied Physics, 71, pp. 4509-4513
  • P. E. Dodd, T. B. Stellwag (Mayer), M. R. Melloch and M. S. Lundstrom, 1991, "Surface and Perimeter Recombination in GaAs Diodes: An Experimental and Theoretical Investigation", IEEE Transactions on Electron Devices, 38, pp. 1253-1261
  • S. P. Tobin, S. M. Vernon, C. Bajgar, S. J. Wajtczuk, M. R. Melloch, A. Keshavarzi, T. B. Stellwag (Mayer), S. Venkatesan, M. S. Lundstrom and K. A. Emery, 1990, "Assessment of MOCVD-and MBE-Grown GaAs for High-Efficiency Solar Cell Applications", IEEE Transactions on Electron Devices, 37, pp. 469-477
  • M. R. Melloch, S. P. Tobin, C. Bajgar, A. Keshavarzi, T. B. Stellwag (Mayer), G. B. Lush, M. S. Lundstrom and K. Emery, 1990, "High-Efficiency AlGaAs Solar Cells Grown by Molecular Beam Epitaxy", Applied Physics Letters, 57, pp. 52-54
  • M. R. Melloch, S. P. Tobin, T. B. Stellwag (Mayer), C. Bajgar, A. Keshavarzi, M. S. Lundstrom and K. Emery, 1990, "High-Efficiency GaAs Solar Cells Grown by Molecular Beam Epitaxy", Journal of Vacuum Science and Technology B, 8, pp. 379-383
  • T. B. Stellwag (Mayer), M. R. Melloch, M. S. Lundstrom, M. S. Carpenter and R. F. Pierret, 1990, "Orientation-Dependent Perimeter Recombination in GaAs Diodes", Applied Physics Letters, 56, pp. 1658-1660
  • G. B. Lush, T. B. Stellwag (Mayer), A. Keshavarzi, S. Venkatesan, M. R. Melloch, M. S. Lundstrom, R. F. Pierret, S. P. Tobin and S. M. Vernon, 1989, "Correlation of Material Properties and Recombination Losses in AlGaAs Solar Cells", Solar Cells, 27, pp. 363-372

Conference Proceedings

  • L. Lin, Z. H. Jiang, S. Yun, D. H. Werner and T. S. Mayer, 2014, "Free-Standing Broadband Low-Loss Optical Metamaterial Filter", pp. 8974, 897410
  • C. M. Schwarz, H. E. Williams, C. N. Grabill, A. M. Lewis, S. M. Kuebler, B. Gleason, K. A. Richardson, A. Pogrebnyakov, C. Drake, C. Drake, C. Rivero-Baleine and T. S. Mayer, 2014, "Processing and Properties of Chalcogenide Glasses for Direct Laser Writing of 3D Microstructures", pp. 8974, 89704P
  • M. Faryad, L. Liu, T. S. Mayer and A. Lakhtakia, 2013, "Optical and Electrical Modeling of an Amorphous Silicon Tandem Solar Cell with Nonhomogeneous Intrinsic Layers and a Periodically Corrugated Back Reflector", pp. 8823, pp. 882306
  • S. Yun, L. Lin, Z. H. Jiang, D. Ma, Z. W. Liu, D. H. Werner and T. S. Mayer, 2012, "Flexible Zero Refractive Index Optical Metamaterial with Matched Impedance", pp. 8455, pp. 84551Q
  • Z. H. Jiang, S. Yun, L. Lin, D. Brocker, D. H. Werner and T. S. Mayer, 2012, "Experimental Demonstration of an Optical Artificial Perfect Magnetic Mirror Using Dielectric Resonators"
  • Z. H. Jiang, S. Yun, D. Ma, P. Gorman, D. H. Werner, Z. W. Liu and T. S. Mayer, 2012, "Experimental Verification of Substrate-Induced Bianisotropy in Optical Metamaterials"
  • F. Namin, S. Yun, X. Wang, D. H. Werner and T. S. Mayer, 2012, "Optical Properties of Quasicrystalline Gold Nanoparticle Arrays in the Visible Spectrum"
  • M. W. Kuo, J. Li, H. Liu, A. Vallett, D. K. Mohata, S. Datta and T. S. Mayer, 2012, "Deterministic Assembly of In0.53Ga0.47As p+-i-n+ Nanowire Junctions for Tunnel Transistors", 45, pp. 129-136
  • S. Levin, J. Kuang, J. Cox, J. S. Mayer and T. S. Mayer, 2012, "Heterogeneous Integration of Ultra-thin Sheets of Alternative Materials onto Silicon Substrates", 45, pp. 559-565
  • D. K. Mohata, R. Bijesh, S. Mujumdar, C. Eaton, R. Engel-Herbert, T. Mayer, V. Narayanan, J. Fastenau, D. Loubychev, A. Liu and S. Datta, 2011, "Demonstration of MOSFET-Like On-Current Performance in Arsenide/Antimonide Tunnel FETs with Staggered Hetero-junctions for 300mV Logic Applications"
  • T. S. Mayer, J. Kim, B. Won, M. Li, T. Morrow, W. Hu, S. Dean, H. Liu, A. Vallett, C. D. Keating and J. S. Mayer, 2011, "Adding New Capabilities to Si CMOS Via Deterministic Nanowire Assembly", 41, pp. 231-237
  • D. H. Werner, T. S. Mayer, C. Rivero-Baleine, N. Podraza, K. Richardson, J. Turpin, A. Pogrebnyakov, J. D. Musgraves, J. A. Bossard and H. J. Shin, 2011, "Adaptive Phase Change Metamaterials for Infrared Aperture Control", pp. 8165, pp. 81651H
  • Z. H. Jiang, S. Yun, F. Toor, D. H. Werner and T. S. Mayer, 2011, "Experimental Demonstration of a Conformal Optical Metamaterial Absorber", pp. 1812-1815
  • Z. H. Jiang, S. Yun, Q. Xu, D. H. Werner, Z. Liu and T. S. Mayer, 2011, "Experimental Verification of a Zero-Index Near Infrared Metamaterial", pp. 1181-1184
  • F. Namin, S. Yun, T. S. Mayer, D. H. Werner and C. Rivero-Baleine, 2011, "Near-Perfect Optical Mirrors Based on Thin All-Dielectric Zero Index Metamaterial Coatings", pp. 1155-1158
  • D. K. Mohata, R. Bijesh, V. Saripalli, T. S. Mayer and S. Datta, 2011, "Self-Aligned Gate Nanopillar In0.53Ga0.47As Vertical Tunnel Transistors", pp. 203-204
  • S. Yun, Z. Jiang, Q. Xu, J. A. Bossard, D. H. Werner, Z. Liu and T. S. Mayer, 2010, "Multilayer Near-IR Metallo-Dielectric Zero Index Metamaterials with Matched Impedance", 7754, pp. 77540G
  • P. E. Sieber, M. G. Bray, J. A. Bossard, A. E. Kovalev, T. S. Mayer and D. H. Werner, 2010, "Stand-off Detection of Chemical Analytes with Passive Chemo-Sensing IR Absorbers", pp. 4-Jan
  • P. L. Werner, S. Yun, D. H. Werner and T. S. Mayer, 2010, "Surface Engineering Coatings for Multispectral Infrared Mirrors", pp. 4-Jan
  • J. A. Bossard, S. Yun, D. H. Werner and T. S. Mayer, 2010, "Low Loss Multilayer Frequency Selective Surface NIMs for the Mid-IR: Modeling, Synthesis and Characterization", pp. 4-Jan
  • A. L. Vallett, S. Minassian, S. Datta, J. M. Redwing and T. S. Mayer, 2010, "Fabrication of Axially Doped Silicon Nanowire Tunnel FETs and Characterization of Tunneling Current", pp. 273-274
  • S. Datta, S. Mookerjea, D. Mohata, L. Liu, V. Saripalli, V. Narayanan and T. Mayer, 2010, "Compound Semiconductor Based Tunnel Transistor Logic", pp. 203-204
  • W. C. Hu, B. Z. Liu, N. S. Dellas, S. M. Eichfeld, J. M. Redwing, S. E. Mohney and T. S. Mayer, 2010, "Lithography-free Synthesis of Freestanding Gold Nanoparticle Arrays Encapsulated within Dielectric Nanowires", 7610, pp. 7610V 1-8
  • S. Mookerjea, D. Mohata, R. Krishnan, J. Singh, A. Vallett, A. Ali, T. S. Mayer, V. Narayanan, D. Schlom, A. Liu and S. Datta, 2009, "Experimental Demonstration of 100nm Channel Length In0.53Ga0.47As-based Vertical Inter-band Tunnel Field Effect Transistors (TFETs) for Ultra Low Power Logic and SRAM Applications", pp. 3-Jan
  • J. A. Bossard, S. Yun, D. H. Werner and T. S. Mayer, 2009, "Low Loss Multilayer Frequency Selective Surface NIMs for the Mid-IR: Modeling, Synthesis, and Characterization", pp. 4-Jan
  • J. A. Bossard, S. Yun, D. H. Werner and T. S. Mayer, 2009, "Multilayer Metallodielectric ZIMs with Matched Impedance for the Mid-IR", pp. 4-Jan
  • W. Hu, X. Zhong, T. Morrow, C. D. Keating, S. Eichfeld, J. M. Redwing and T. S. Mayer, 2009, "Axially Doped Silicon Nanowire Field Effect Transistors for Real-Time Sensing in Physiologically Relevant Buffer Solutions", pp. 131-132
  • Morrow, T. J. Kim, M. Li, T. S. Mayer and C. D. Keating, 2008, "Electrofluidic Positioning of Biofunctionalized Nanowires"
  • J. A. Bossard, S. Yun, D. H. Werner and T. S. Mayer, 2008, "Low Loss Multilayer Frequency Selective Surface Negative Index Metamaterials for the Mid-Infrared", pp. 4-Jan
  • M. G. Bray, A. Kovalev, D. H. Werner, T. S. Mayer and L. Takiff, 2008, "Chemoselective Salisbury Screen Absorbers for Passive Standoff Detection of Analytes", pp. 4-Jan
  • A. Kovalev, M. G. Bray, T. S. Mayer and D. H. Werner, 2008, "Agent Reactive Modulated Optical Reflector for Hazardous Agent Detection"
  • L. Cai, A. Kovalev and T. S. Mayer, 2008, "Conducting Polymer Nanofibers for Gas Sensors"
  • A. Diaz, S. Kubo, Y. Tang, J. Liou, T. S. Mayer, I. C. Khoo and T. E. Mallouk, 2007, "Tunable refractive index materials with metallic nano-spheres dispersed in organic liquids", pp. 66540V/1-8
  • J. A. Bossard, Y. Tang, D. H. Werner and T. S. Mayer, 2007, "Genetic Algorithm Synthesis of Planar Zero Index Metamaterials for the Infrared with Application to Electromagnetic Cloaking", pp. 5555-5558
  • J. A. Bossard, Y. Tang, D. H. Werner and T. S. Mayer, 2007, "Genetically Designed Multiband Metallodielectric Frequency Selective Surface Filters for the Mid-infrared", pp. 3404-3407
  • H. Yoon, L. Cai, M. Maitani, D. Allara and T. Mayer, 2007, "In-situ Inelastic Electron Tunneling Spectroscopy of Bistable Molecular Junction Devices", pp. 141-142
  • J. A. Bossard, D. H. Kwon, Y. Tang, D. H. Werner and T. S. Mayer, 2007, "Low-loss Planar Negative Index Metamaterials for the Mid-infrared Based on Frequency Selective Surfaces", pp. 2873-2876
  • M. Lee, C. Highstrete, A. Vallett, S. Dilts, J. M. Redwing and T. S. Mayer, 2007, "Microwave Dissipation Spectra in Arrays of Silicon Nanowires", pp. 1765-1767
  • J. A. Bossard, S. Yun, Y. Tang, J. A. Smith, D. H. Werner and T. S. Mayer, 2007, "Multiband All-dielectric Frequency Selective Surface Filters for the Mid-infrared", pp. 3416-3419
  • M. G. Bray, A. E. Kovalev, Z. Bayraktar, D. H. Werner and T. S. Mayer, 2007, "Reconfigurable Dipole Chaff Elements for Passive Standoff Detection of Chemical Agents", pp. 1513 ? 1516
  • S. Kubo, A. Diaz, Y. Tang, Theresa S Mayer, I. C. Khoo and T. E. Mallouk, 2007, "Tunable Refractive Index Materials with Gold Nano-spheres Dispersed in Liquid Crystals", Proceedings of the SPIE Optics and Photonics
  • J. A. Bossard, L. Li, J. A. Smith, D. H. Werner and T. S. Mayer, 2006, "Terahertz Applications of Frequency Selective Surfaces: Analysis, Design, Fabrication, and Testing", pp. 2395-2398
  • M. Li, R. B. Bhiladvala, J. A. Sioss, K. K. Lew, J. M. Redwing, C. D. Keating and T. S. Mayer, 2006, "High-Performance Nanomechanical Oscillators Fabricated by Bottom-Up Integration of Silicon Nanowires", pp. 185-186
  • Y. Wang, T. T. Ho, S. Dilts, K. K. Lew, B. Liu, S. E. Mohney, J. M. Redwing and T. S. Mayer, 2006, "Inversion-mode Operation of Thermally-oxidized Modulation-doped Silicon Nanowire Field Effect Devices", pp. 175-176
  • J. A. Bossard, J. A. Smith, D. H. Werner, T. S. Mayer and R. P. Drupp, 2005, "Multiband Planar Infrared Metallodielectric Photonic Crystals Designed Using Genetic Algorithms with Fabrication Constraints", 1B, pp. 759-762
  • T. Liang, L. Li, J. A. Bossard, D. H. Werner and T. S. Mayer, 2005, "Reconfigurable Ultra-thin EBG Absorbers Using Conducting Polymers", 2B, pp. 204-207
  • Y. Wang, K. K. Lew, J. Mattzela and T. S. Mayer, 2005, "Top-gated Field Effect Devices using Oxidized Silicon Nanowires", pp. 159-160
  • S. M. Davidson, T. S. Mayer and K. V. Sharp, 2004, "Electrokinetic Behavior of Cylindrical Nanowires in Microfluidic Channels", pp. 60598/1-8
  • S. N. Bharadwaja, D. J. Won, H. Fang, V. Goplan, S. Trolier-McKinstry, N. Saldhana and T. Mayer, 2004, "Processing and Properties of High Aspect Ratio Ferroelectric Structures", pp. 189-192
  • I. G. Mina, S. S.N. Bharadwaja, J. Raviprakash, S. Trolier-McKinstry, N. Saldanha and T. Mayer, 2004, "Molding of High Aspect Ratio Ferroelectric Microstructures", pp. 258-261
  • R. P. Drupp, J. A. Bossard, D. H. Werner and T. S. Mayer, 2004, "Multiband Planar Metallodielectric Photonic Crystals Using Frequency Selective Surface Techniques", II, pp. 1907-1910
  • J. A. Bossard, D. H. Werner, T. S. Mayer and R. P. Drupp, 2004, "Reconfigurable Infrared Frequency Selective Surfaces", II, pp. 1911-1914
  • Y. Wang, M. Cabassi, T. T. Ho, K. K. Lew, J. M. Redwing and T. S. Mayer, 2004, "Electrical Properties of p- and n-type Silicon Nanowires", pp. 23
  • N. I. Kovtyukhova, S. K. St. Angelo, B. K. Kelley, T. S. Mayer, J. B. Mattzela and T. E. Mallouk, 2004, "Functional Nanowires Made by Layer-by-Layer Assembly and Self-Assembly Techniques", 90, pp. 9-Jun
  • J. M. Redwing, K. K. Lew, T. E. Bogart, L. Pan, E. C. Dickey, A. H. Carim, Y. Fang, M. A. Cabassi and T. S. Mayer, 2004, "Synthesis and properties of Si and SiGe/Si nanowires", 5361, pp. 52-60
  • C. Zhang, K. Holliday, I. C. Khoo, A. Diaz, J. Ding, I. B. Divliansky, T. S. Mayer, V. Crespi, D. Scrymgeour and V. Gopalan, 2002, "Widely Tunable Nonlinear Liquid Crystal-based Photonic Cystals", 4799, pp. 58-53
  • S. Evoy, B. Hailer, M. Duemling, W. Barnhart, S. Raman, B. R. Martin, T. E. Mallouk, I. Kratochvilova and T. S. Mayer, 2001, "Hybrid Assembly of Nanoelectromechanical Systems", 687, pp. 63-68
  • A. Shishido, I. B. Divliansky, S. Nishimura, Y. Zhang, J. S. Patel, T. E. Mallouk, T. S. Mayer and I. C. Khoo, 2001, "Nonlinear Liquid Crystals in Periodic Structures", 4463, pp. 148-155
  • D. J. Pena, B. Razavi, P. A. Smith, M. J. Natan, T. S. Mayer, T. E. Mallouk and C. D. Keating, 2001, "Electrochemical Synthesis of Multi-Material Nanowires as Building Blocks for Functional Nanostructures", 636, pp. D461-D466
  • C. D. Nordquist, P. A. Smith and T. S. Mayer, 2000, "An Electrofluidic Assembly Technique for Integration of III-V Devices onto Silicon", pp. 137-142
  • N. T. Moshegov, T. S. Mayer and D. L. Miller, 2000, "Solid Source Molecular Beam Epitaxy of Al-free Materials for Laser Applications", pp. 223-228
  • T. S. Mayer, C. Zhang, J. Medunick and T. N. Jackson, 1997, "A New Design-Oriented Laboratory for the Introductory Circuits Core Course at Penn State University", pp. 506-510
  • C. Zhang, D. I. Lubyshev, W. Cai, J. E. Neal, D. L. Miller and T. S. Mayer, 1997, "Demonstration of a GaAs-Based Compliant Substrate Using Wafer Bonding and Substrate Removal Techniques", 156, pp. 25-27
  • D. I. Lubyshev, W. Z. Cai, G. L. Catchen, T. S. Mayer and D. L. Miller, 1997, "Incorporation of Thallium in InTlAs and GaTlAs Grown by Molecular Beam Epitaxy", 156, pp. 125-130
  • D. I. Lubyshev, J. E. Neal, W. Z. Cai, M. Micovic, T. S. Mayer and D. L. Miller, 1997, "MBE Growth of Near-Infrared InGaAs Photodetectors with Carbon Tetrabromide as a p-Type Dopant", 156, pp. 395-399
  • C. Zhang, L. Zavieh, A. Mitra and T. S. Mayer, 1997, "Fabrication of GaAs-Based 3-Dimensional Photonic Bandgap Materials", pp. 351-359
  • T. S. Mayer and T. J. Kane, 1996, "Low Light-Level IR Detectors for Use in LIDAR Systems", pp. 993-995
  • M. Micovic, W. Z. Cai, Y. Ren, J. Neal, S. F. Nelson, T. S. Mayer and D. L. Miller, 1995, "Dark Current Reduction in Near Infrared p-i-n Detector Diodes Fabricated from In0.75Ga0.25As Grown by Molecular Beam Epitaxy on InP Substrates", pp. 219-224
  • D. B. Sarraf and T. S. Mayer, 1995, "Design of a TPV Generator with a Durable Selective Emitter and Spectrally Matched PV Cells", pp. 98-108
  • T. S. Mayer, W. Y. Hwang, R. Kochhar, M. Micovic, D. L. Miller and S. M. Lord, 1995, "Molecular Beam Epitaxy of In0.74Ga0.26As on InP for Low Temperature Thermophotovoltaic Applications", pp. 394-405
  • E. John, M. B. Das, W. Y. Hwang, T. S. Mayer and D. L. Miller, 1995, "Fabrication and Performance of a Novel Ultra-Low Capacitance MSM Photodetector for High-Speed OEIC Receiver Applications", pp. 512-515
  • T. B. Stellwag (Mayer), J. A. Cooper, Jr and M. R. Melloch, 1991, "A Vertically-Integrated GaAs Bipolar DRAM Cell", pp. IIIB-7
  • P. G. Neudeck, T. B. Stellwag (Mayer), J. A. Cooper, Jr, M. R. Melloch, S. M. Bedair, B. T. McDermot and K. G. Reid, 1990, "Electrical Characteristics of GaAs PiN Junctions and Memory Capacitors Grown by Atomic Layer Epitaxy on Planar Surfaces and Trench Sidewalls", pp. IIA-8
  • M. R. Melloch, S. P. Tobin, C. Bajgar, T. B. Stellwag (Mayer), A. Keshavarzi and M. S. Lundstrom, 1990, "High-Efficiency GaAs and AlGaAs Solar Cells Grown by Molecular Beam Epitaxy", pp. 163-167
  • T. B. Stellwag (Mayer), P. E. Dodd, M. S. Carpenter, M. S. Lunstrom, R. F. Pierret and M. R. Melloch, 1990, "Effects of Perimeter Recombination on GaAs-Based Solar Cells"

Encyclopedia Entries

  • T. S. Mayer, J. S. Mayer and C. D. Keating, 2010, "Dielectrophoretic Assembly of Nanowires and Nanoparticles",, Nanotechnology Encyclopedia, , Springer Science

Other

  • Y. A. Yuwen, W. Hu, S. Yun, Theresa S Mayer, M. Krishnamurthy and K. G. Eyink, 2011, "Self-Organized Freestanding One-Dimensional Gold Nanoparticle Arrays"
  • Theresa S Mayer, J. Kim, B. Won, M. Li, T. Morrow, W. Hu, S. Dean, H. Liu, A. Vallett, C. D. Keating and J. S. Mayer, 2011, "Adding New Capabilities to Si CMOS Via Deterministic Nanowire Assembly"
  • K. L. Liddell, X. Zhong, K. Sun, S. L. Dean, Theresa S Mayer and C. D. Keating, 2011, "Fabrication and Characterization of Phosphonic Acid Monolayers for Use in Biosensing"
  • Theresa S Mayer, J. Kim, B. Won, M. Li, T. Morrow, W. Hu, S. Dean, H. Liu, A. Vallett, C. D. Keating and J. S. Mayer, 2010, "Deterministic Assembly of Semiconductor Nanowire Device Arrays"
  • Theresa S Mayer, M. Li, T. Morrow, W. Hu, S. Dean, H. Liu, A. Vallett and C. D. Keating, 2010, "Adding New Capabilities to Silicon CMOS Integrated Circuits via Deterministic Programmed Assembly"
  • Theresa S Mayer, J. Kim, B. Won, M. Li, T. Morrow, C. D. Keating and J. S. Mayer, 2010, "Electric Field-Assisted Deterministic Nanowire Assembly: Physics and Applications"
  • Z. Jiang, S. Yun, D. H. Werner and Theresa S Mayer, 2010, "Design, Fabrication and Characterization of Wide-Angle Polarization-Insensitive Optical Metamaterial Absorbers"
  • S. Yun, Z. Jiang, Q. Xu, D. H. Werner, Z. Liu and Theresa S Mayer, 2010, "Near Infrared Metallo-Dielectric ZIMs with Matched Impedance"
  • Theresa S Mayer, M. Li, J. Kim, T. Morrow, W. Hu, P. Nimmatoori, Y.-Y. Cao, J. M. Redwing, T. Mallouk and C. D. Keating, 2010, "Enabling the Convergence of Chemistry and Biology with Chip-Scale Electronics by Deterministic Nanowire Assembly"
  • Theresa S Mayer, S. Yun, J. Bossard, Y. Tang and D. H. Werner, 2010, "Planar Infrared Zero Index Metamaterials"
  • D. H. Werner, Z. H. Jiang, F. Toor, S. Yun, Z. Bayraktar, X. Wang, Theresa S Mayer and P. L. Werner, 2010, "Metamaterial Absorbers with Wide-Angle Polarization-Insensitive Multiband Properties for RF through Mid-Infrared Applications"
  • H. Yoon, M. Maintani, D. L. Allara and Theresa S Mayer, 2010, "Crossed-Nanowire Molecular Junction Device"
  • S. Yun, J. A. Bossard, Y. Tang, D. H. Werner and Theresa S Mayer, 2010, "Infrared Planar Zero Index Metamaterials"
  • A. Vallett, S. Minassian, S. Datta, J. M. Redwing and Theresa S Mayer, 2010, ""Fabrication of Axially-Doped Silicon Nanowire Tunnel FETs and Characterization of Tunneling Current"
  • Theresa S Mayer, T. Morrow, J. Kim, W. Hu, M. Li and C. D. Keating, 2010, "Deterministic Assembly of Functionalized Nanowire Devices for Ultracompact Multiplexed Biosensor Chips"
  • J. Kim, A. E. Kovalev, B. Won, E. Hernandez, T. E. Mallouk and Theresa S Mayer, 2010, "High-yield Deterministic Assembly of Nanowire Arrays for On-chip Sensing Applications"
  • Theresa S Mayer, W. Hu, B. Liu and S. Mohney, 2010, "1D and 2D Metallodielectric Nanostructures: Self-Organized and Lithographic Nanofabrication"

Research Projects

  • March 2013 - February 2015, "Deterministic Assembly of Nano/Microstructures," (Sponsor: Northrop Grumman Corporation).
  • September 2011 - August 2014, "SOLAR Collaborative: Multiplasmonic light harvesting for thin film solar cells," (Sponsor: National Science Foundation).
  • September 2009 - February 2014, "ARRA: NNIN National Nanotechnology Infrastructure Network Cap Equip Only," (Sponsor: Cornell University).
  • March 2004 - February 2014, "NNIN: National Nanotechnology Infrastructure Network," (Sponsor: Cornell University).
  • March 2004 - February 2014, "NNIN: National Nanotechnology Infrastructure Network," (Sponsor: Cornell University).
  • March 2004 - February 2014, "NNIN: National Nanotechnology Infrastructure Network," (Sponsor: Cornell University).
  • March 2004 - February 2014, "NNIN: National Nanotechnology Infrastructure Network," (Sponsor: Cornell University).
  • March 2004 - February 2014, "NNIN: National Nanotechnology Infrastructure Network," (Sponsor: Cornell University).
  • March 2004 - February 2014, "NNIN: National Nanotechnology Infrastructure Network," (Sponsor: Cornell University).
  • March 2004 - February 2014, "NNIN: National Nanotechnology Infrastructure Network," (Sponsor: Cornell University).
  • March 2004 - February 2014, "NNIN: National Nanotechnology Infrastructure Network," (Sponsor: Cornell University).
  • March 2004 - February 2014, "NNIN: National Nanotechnology Infrastructure Network," (Sponsor: Cornell University).
  • March 2004 - February 2014, "NNIN: National Nanotechnology Infrastructure Network - Summer Internship Program," (Sponsor: Cornell University).
  • January 2013 - October 2013, "Center for low energy systems technology (LEAST)," (Sponsor: Notre Dame, University of).
  • November 2009 - January 2013, "Combining Biology with CMOS through Programmed Nanowire Assembly," (Sponsor: Massachusetts Institute of Technology).
  • April 2012 - July 2013, "Innovative Design and Manufacturing of Gradient-Index-Based Transformation Optics Components," (Sponsor: Air Force Research Laboratory).
  • April 2008 - March 2013, "Midwest Institute for Nanoelectronics Discovery Project 1.5 (MIND 1.5)," (Sponsor: Notre Dame, University of).
  • September 2012 - August 2013, "NSF Nanosystems Engineering Research Center (ERC) on Advanced Self-Powered Systems of Integrated Sensor Technologies (ASSIST)," (Sponsor: North Carolina State University).
  • April 2009 - May 2013, "Nanoscale Contacts," (Sponsor: U.S. Army Research, Development and Engineering Command Acquisition Center).
  • February 2011 - February 2013, "Self-Organized One Dimensional Gold Nanoparticle Arrays," (Sponsor: UES, Inc.).
  • July 2010 - June 2012, "Aptamer-Based Nanotechnology for Detection of Plasma Melanoma Markers," (Sponsor: National Cancer Institute).
  • March 2010 - February 2012, "ARRA: MRI-R2: Acquisition of a Versatile Electron Beam Nanolithography Instrument for Patterning on Planar and Curved Surfaces," (Sponsor: National Science Foundation).
  • February 2008 - July 2012, "High Aspect Ratio Semiconductor Heterojunction Solar Cells (CONTINUATION)," (Sponsor: U.S. Department of Energy).
  • April 2012 - November 2012, "Bulk MWIR TO Lense (12-010-I)," (Sponsor: Lockheed Martin Corporation, Inc.).
  • July 2011 - March 2012, "Applied Metamaterials: Metamaterials-Enhanced Technical Applications," (Sponsor: Lockheed Martin Corporation, Inc.).
  • July 2011 - March 2012, "Applied Metamaterials: Metamaterials-Enhanced Technical Applications," (Sponsor: Lockheed Martin Corporation, Inc.).
  • January 2012 - December 2012, "Reconfigurable Phase Change materials (PCM) Meta-mask," (Sponsor: Lockheed Martin Corporation, Inc.).
  • January 2012 - October 2012, "Reconfigurable Phase Change materials (PCM) Meta-mask," (Sponsor: Lockheed Martin Corporation, Inc.).
  • June 2009 - May 2012, "RET Site: National Nanotechnology Infrastructure Network (NNIN) RET," (Sponsor: Georgia Institute of Technology).
  • September 2008 - August 2011, "Nanotechnology Instrumentation in Support of NNIN (2008)," (Sponsor: Cornell University).
  • April 2008 - December 2011, "Midwest Institute for Nanoelectronics Discovery Project 1.5 (MIND 1.5)," (Sponsor: Notre Dame, University of).
  • June 2007 - March 2011, "Phase II - Silicon Nanowire Solar Cell," (Sponsor: Illuminex Corporation $).
  • March 2010 - June 2011, "Penn State Infrared Frequency Selective Surface Tasks," (Sponsor: PPG Industries).
  • March 2011 - December 2011, "Multilayer Coating on Substrate," (Sponsor: Lockheed Martin Corporation, Inc.).
  • March 2011 - July 2011, "Multilayer Coating on Substrate," (Sponsor: Lockheed Martin Corporation, Inc.).
  • March 2011 - July 2011, "Multilayer Coating on Substrate," (Sponsor: Lockheed Martin Corporation, Inc.).
  • March 2011 - July 2011, "Multilayer Coating on Substrate," (Sponsor: Lockheed Martin Corporation, Inc.).
  • March 2011 - September 2011, "Multilayer Coating on Substrate," (Sponsor: Lockheed Martin Corporation, Inc.).
  • November 2008 - March 2011, "Nanodielectrics for Pulsed Power Applications," (Sponsor: Air Force Research Laboratory).
  • November 2008 - May 2011, "Nanodielectrics for Pulsed Power Applications," (Sponsor: Air Force Research Laboratory).
  • December 2009 - March 2011, "Active Electro-Optical Metamaterial Filters for Sensor Protection Applications," (Sponsor: Air Force Research Laboratory).
  • December 2009 - March 2011, "Active Electro-Optical Metamaterial Filters for Sensor Protection Applications," (Sponsor: Air Force Research Laboratory).
  • November 2009 - October 2011, "Combining Biology with CMOS through Programmed Nanowire Assembly," (Sponsor: Massachusetts Institute of Technology).
  • May 2011 - September 2011, "Modeling and Fabrication of Nano-enabled Phased Array Antenna," (Sponsor: Lockheed Martin Corporation, Inc.).
  • April 2008 - March 2011, "Energy Efficient Transistor and Architecture," (Sponsor: Notre Dame, University of).
  • November 2008 - June 2011, "CTSA-Adapting an RNA Sensor Platform to Protein Detection Using Aptamers," (Sponsor: PA Tobacco Settlement Fund (TSF)).
  • April 2009 - December 2011, "Nanoscale Contacts," (Sponsor: U.S. Army Research, Development and Engineering Command Acquisition Center).
  • February 2008 - January 2011, "High Aspect Ratio Semiconductor Heterojunction (HARSH) Solar Cells," (Sponsor: U.S. Department of Energy).
  • February 2008 - July 2011, "High Aspect Ratio Semiconductor Heterojunction (HARSH) Solar Cells," (Sponsor: U.S. Department of Energy).
  • February 2008 - January 2011, "High Aspect Ratio Semiconductor Heterojunction Solar Cells (Revised Budget)," (Sponsor: U.S. Department of Energy).
  • February 2008 - July 2011, "High Aspect Ratio Semiconductor Heterojunction Solar Cells (CONTINUATION)," (Sponsor: U.S. Department of Energy).
  • June 2009 - May 2011, "RET Site: National Nanotechnology Infrastructure Network (NNIN) RET," (Sponsor: Georgia Institute of Technology).
  • July 2006 - June 2011, "NIRT: Semiconductor Nanowire Electronics," (Sponsor: National Science Foundation).
  • November 2009 - February 2010, "Textured Ring Projector Development," (Sponsor: Raytheon Company).
  • April 2009 - April 2010, "Acquisition of an Infrared-Variable Angle Spectroscopic Ellipsometer," (Sponsor: Office of Naval Research).
  • February 2008 - January 2010, "An RNA Sensor for Detection of Circulating Tumor Cells," (Sponsor: National Cancer Institute).
  • July 2009 - June 2010, "Aptamer-Based Nanotechnology for Detection of Plasma Melanoma Markers," (Sponsor: National Cancer Institute).
  • April 2009 - December 2010, "Nanoscale Contacts," (Sponsor: U.S. Army Research, Development and Engineering Command Acquisition Center).
  • November 2008 - October 2010, "Engineering Materials with Customized Electromagnetic Properties (CET)," (Sponsor: Lockheed Martin Corporation, Inc.).
  • April 2010 - September 2010, "FESEM Crosses," (Sponsor: Lockheed Martin Corporation, Inc.).
  • April 2010 - September 2010, "FESEM Crosses," (Sponsor: Lockheed Martin Corporation, Inc.).
  • August 2009 - August 2010, "High Altitude Detection of Thermal Neutron Sources on the Ground," (Sponsor: Defense Threat Reduction Agency).
  • March 2009 - February 2010, "Modification 1: Chip Scale Channelizer," (Sponsor: Northrop Grumman Corporation).
  • July 2009 - November 2010, "Item #2 - Dielectric Patterned Structures," (Sponsor: Lockheed Martin Corporation, Inc.).
  • June 2009 - June 2010, "ICx Sensors Program," (Sponsor: ICx Nomadics).
  • November 2009 - December 2010, "Combining Biology with CMOS through Programmed Nanowire Assembly," (Sponsor: Massachusetts Institute of Technology).
  • April 2008 - March 2010, "Energy Efficient Transistor and Architecture," (Sponsor: Notre Dame, University of).
  • March 2009 - March 2010, "Multispectral Mirror / RF Airy Beam," (Sponsor: Lockheed Martin Corporation, Inc.).
  • July 2009 - March 2010, "Project A: Coated FSS Structure, Multilayer Coating on ZnSe Glass Substrate," (Sponsor: Lockheed Martin Corporation, Inc.).
  • March 2004 - February 2010, "NNIN: National Nanotechnology Infrastructure Network," (Sponsor: Cornell University).
  • June 2009 - May 2010, "RET Site: National Nanotechnology Infrastructure Network (NNIN) RET," (Sponsor: Georgia Institute of Technology).
  • July 2009 - December 2010, "Project A: Coated FSS Structure, Multilayer Coating on ZnSe Glass Substrate (Line Item #02 (Task 3), (Line Item #03 (Task 5) and Line Item #04 (Task 4))," (Sponsor: Lockheed Martin Corporation, Inc.).
  • July 2009 - December 2010, "Project A: Coated FSS Structure, Multilayer Coating on ZnSe Glass Substrate (Line Item #03 (Task 5) and Line Item #04 (Task 4))," (Sponsor: Lockheed Martin Corporation, Inc.).
  • July 2009 - March 2010, "Project B: Au FSS Coated Glass," (Sponsor: Lockheed Martin Corporation, Inc.).
  • July 2009 - March 2010, "Project B: Au FSS Coated Glass," (Sponsor: Lockheed Martin Corporation, Inc.).
  • July 2009 - November 2009, "Project B: Au FSS Coated Glass," (Sponsor: Lockheed Martin Corporation, Inc.).
  • July 2009 - November 2009, "Project A: Coated FSS Structure, Multilayer Coating on ZnSe Glass Substrate," (Sponsor: Lockheed Martin Corporation, Inc.).
  • March 2004 - February 2009, "NNIN: National Nanotechnology Infrastructure Network," (Sponsor: Cornell University).
  • March 2004 - February 2009, "NNIN: National Nanotechnology Infrastructure Network," (Sponsor: Cornell University).
  • March 2004 - February 2009, "NNIN: National Nanotechnology Infrastructure Network," (Sponsor: Cornell University).
  • March 2004 - February 2009, "NNIN: National Nanotechnology Infrastructure Network," (Sponsor: Cornell University).
  • August 2008 - June 2009, "Nanofabrication Analytical Services," (Sponsor: Solarity, Inc).
  • June 2008 - May 2009, "Nanofabrication Analytical Services," (Sponsor: Solarity, Inc).
  • July 2008 - December 2009, "Penn State Nanofabrication Laboratory," (Sponsor: NanoLambda).
  • June 2007 - August 2009, "Phase II - Silicon Nanowire Solar Cell," (Sponsor: Illuminex Corporation $).
  • April 2008 - March 2009, "Energy Efficient Transistor and Architecture," (Sponsor: Notre Dame, University of).
  • March 2009 - June 2009, "Chip Scale Channelizer," (Sponsor: Northrop Grumman Corporation).
  • April 2008 - April 2009, "3 to 5 micron Negative Index Metamaterial," (Sponsor: Lockheed Martin Corporation, Inc.).
  • April 2008 - February 2009, "3 to 5 micron Negative Index Metamaterial," (Sponsor: Lockheed Martin Corporation, Inc.).
  • September 2006 - August 2009, "Acquisition of Nanotechnology Instrumentation Within NNIN: Consortium Proposal," (Sponsor: Cornell University).
  • June 2008 - May 2009, "Multi-Analyted Wireless Chemical Sensor Microsystems Based on Assembled Microbeads (Subcontract Proposal)," (Sponsor: Virginia Polytechnic Institute and State University).
  • November 2008 - October 2009, "Engineering Materials with Customized Electromagnetic Properties (CET)," (Sponsor: Lockheed Martin Corporation, Inc.).
  • April 2009 - December 2009, "Nanoscale Contacts," (Sponsor: U.S. Army Research, Development and Engineering Command Acquisition Center).
  • June 2005 - June 2009, "Contacts to Semiconductor Nanowires," (Sponsor: U.S. Department of the Army).
  • February 2007 - January 2008, "An RNA Sensor for Detection of Circulating Tumor Cells," (Sponsor: National Cancer Institute).
  • August 2003 - July 2008, "NIRT: Heterogeneous Integration of Nanowires for Chemical Sensor Arrays (Revised Budget)," (Sponsor: National Science Foundation).
  • August 2005 - July 2008, "Navy Counter IED Basic Research," (Sponsor: U.S. Department of the Navy).
  • June 2008 - December 2008, "High Linearity Radio Frequency (RF) Carbon Nanotube (CT) Field Effects Transistors (FETs)," (Sponsor: Northrop Grumman Corporation).
  • June 2008 - December 2008, "High Linearity Radio Frequency (RF) Carbon Nanotube (CT) Field Effects Transistors (FETs)," (Sponsor: Northrop Grumman Corporation).
  • March 2007 - December 2007, "Metamaterials and Frequency Selective Surface," (Sponsor: Lockheed Martin Corporation, Inc.).
  • January 2007 - September 2007, "Collaborative Research: Characterize the Microwave Dielectric Properties of Planar Silicon Nanowire Arrays," (Sponsor: Sandia National Laboratories).
  • August 2003 - July 2007, "NIRT: Bottom up assembly of metal and semiconductor nanowires: Fundamental forces to nanoelectronic circuits," (Sponsor: National Science Foundation).
  • July 2007 - September 2007, "Device Research Conference," (Sponsor: U.S. Department of the Navy).
  • February 2006 - January 2007, "An RNA Sensor for Detection of Circulating Tumor Cells," (Sponsor: National Cancer Institute).
  • April 2005 - March 2007, "Acquisition of an RF Sensor Materials and Device Test System," (Sponsor: U.S. Department of the Navy).
  • September 2004 - August 2007, "Acquisition of Cryogenic Micromanipulated Probe Station for Nanoscale Materials and Device Characterization," (Sponsor: National Science Foundation).
  • June 2005 - October 2007, "Contacts to Semiconductor Nanowires," (Sponsor: U.S. Department of the Army).
  • June 2005 - October 2006, "Contacts to Semiconductor Nanowires," (Sponsor: U.S. Department of the Army).
  • June 2005 - October 2006, "Contacts to Semiconductor Nanowires," (Sponsor: U.S. Department of the Army).
  • March 2006 - September 2006, "Device Research Conference," (Sponsor: U.S. Department of the Navy).
  • July 2001 - June 2006, "Supplement - NIRT: Semiconductor Nanowires: Building Blocks for Nanoscale Electronics," (Sponsor: National Science Foundation).
  • June 2006 - September 2006, "Collaborative Research: Characterize the Microwave Dielectric Properties of Planar Silicon Nanowire Arrays," (Sponsor: Sandia National Laboratories).
  • September 2006 - December 2006, "IR Chemoresistive Chaff," (Sponsor: Northrop Grumman Corporation).
  • October 2004 - March 2005, "RF Detection of Explosives," (Sponsor: Defense Advanced Research Projects Agency (was ARPA)).
  • September 2003 - February 2005, "Revised Budget: NER: Bottom-up Assembly of Nanomechanical Biosensing Arrays," (Sponsor: National Science Foundation).
  • March 2001 - September 2005, "Directed Assembly of Molecular Logic Architectures Using Functionalized Metallic Nanowires (ref 73795)," (Sponsor: Office of Naval Research).
  • June 2005 - October 2005, "Contacts to Semiconductor Nanowires," (Sponsor: U.S. Department of the Army).
  • June 2004 - May 2005, "Chip-based nanosensors for early cancer diagnosis by RNA detection (TSF)," (Sponsor: PA Tobacco Settlement Fund (TSF)).
  • July 2002 - June 2005, "To Strengthen Nanotechnology Research in Pennsylvania," (Sponsor: COP: Department of Community and Economic Development).
  • December 2003 - January 2004, "Metallo-Dielectric Optical Surfaces," (Sponsor: Dow Chemical Company).
  • August 2004 - December 2004, "Applications of Nanowires in Radar," (Sponsor: Lockheed Martin Corporation, Inc.).

Honors and Awards

  • Senior Member, IEEE, 2015
  • Eta Kappa Nu, 2015
  • Tau Beta Pi, 2015
  • Best Paper Award, 64th IEEE Device Research Conference, 2015
  • Best Paper Award, 64th IEEE Device Research Conference, 2015
  • Best Paper Award, 2004 USA-Argentina Workshop on Molecular Electronics and Quantum Dots, 2015
  • Outstanding Research Award, Penn State Engineering Society, 2009
  • National Security Science and Engineering Faculty Fellow Semi-finalist, 2008
  • Secret-Level Security Clearance, Penn State Applied Research Laboratory, 2006
  • Advance Scholar, Va Tech, 2006
  • Outstanding Teaching Award, Penn State Engineering Society, 2000
  • NSF CAREER Award, 1995
  • Kodak Fellow, 1991 - 1993

Service

Service to Penn State:

  • Committee Work, Other, Co-Director, Materials Research Institute, 2012 - 2014
  • Committee Work, Department Head Search Committee, 2011 - 2012
  • Committee Work, Department Head Search Committee, 2010 - 2011
  • Committee Work, Strategic Planning Committee, 2007 - 2008
  • Contribution to Programs to Enhance Equal Opportunity/Cultural Diversity, Nanotechnology Showcase, 2007
  • Committee Work, Other, Executive Committee Member,, Midwest Institute for Nanoelectronics Discovery, 2007 - 2012
  • Committee Work, Other, Associate Director, Materials Research Institute, 2006 - 2009
  • Committee Work, Other, Board Member, Materials Research Institute, 2006
  • Committee Work, Other, Interdisciplinary Research Group Leader, Penn State NSF Materials Research Science and Engineering Center, 2006
  • Committee Work, Director, Penn State Site of the NSF National Nanotechnology Infrastructure Network, 2006
  • Committee Work, Director, Materials Research Institute, 2006 - 2012
  • Middle and High-School Girl Mentoring Program, 2006 - 2010
  • Chairperson, Penn State Faculty Women Advisory Committee, 2006
  • Committee Work, Other, Officer, Senior Women Faculty Advisory, 2005
  • Committee Work, Other, Associate Chair, Intercollege Graduate Program in Materials, 2003 - 2004
  • Committee Work, Other, Executive Committee Member, Penn State NSF Materials Research Science and Engineering Center, 2003
  • Committee Work, Other, Central Facilities Laboratory Coordinator, Penn State NSF Materials Research Science and Engineering Center, 2003 - 2005
  • Committee Work, Other, Curriculum Committee, Intercollege Graduate Program in Materials, 2002 - 2003
  • Committee Work, Other, Executive Committee Member, Penn State NSF Materials Research Science and Engineering Center, 2000 - 2001
  • Committee Work, Other, Interdisciplinary Research Group Leader, Penn State NSF Materials Research Science and Engineering Center, 2000 - 2001
  • Committee Work, Department of Electrical Engineering, Promotion and Tenure Committee, 2000 - 2002
  • Committee Work, Department of Electrical Engineering, Advisory Committee, 2000 - 2004
  • Committee Work, Department Head Search Committee, 1998 - 1999
  • Contribution to Programs to Enhance Equal Opportunity/Cultural Diversity, Faculty Advisor, Society of Women Engineers, 1995 - 1997
  • Committee Work, Faculty Advisor, Society of Women Engineers, 1995 - 1997
  • Contribution to Programs to Enhance Equal Opportunity/Cultural Diversity, Women in Engineering Panel Sessions, 1994 - 1996
  • Committee Work, Department of Electrical Engineering, Undergraduate Curriculum Committee, 1994 - 1998
  • Committee Work, Department of Electrical Engineering, Electronics Area Committee, 1993
  • Committee Work, Other, Advisory Board Member, Women in Engineering, 1993 - 2000
  • Contribution to Programs to Enhance Equal Opportunity/Cultural Diversity, Other, Leader, Expanding Your Horizons Workshop, March 1994
  • Contribution to Programs to Enhance Equal Opportunity/Cultural Diversity, Other, Panel, MRSEC Undergraduate/Graduate STEM Workshop, 2013
  • Committee Work, Electrical Engineering/Computer Science and Engineering Study Committee, 2011
  • Committee Work, Dean Search Committee, 2013
  • Contribution to Programs to Enhance Equal Opportunity/Cultural Diversity, Discovery-U TED talk, November 2013

Service to External Organizations:

  • Service to Governmental Agencies, Reviewer, National Science Foundation, January 2011
  • Other, Board Member, January 2007
 


 

About

The School of Electrical Engineering and Computer Science was created in the spring of 2015 to allow greater access to courses offered by both departments for undergraduate and graduate students in exciting collaborative research in fields.

We offer B.S. degrees in electrical engineering, computer science, computer engineering and data science and graduate degrees (master's degrees and Ph.D.'s) in electrical engineering and computer science and engineering. EECS focuses on the convergence of technologies and disciplines to meet today’s industrial demands.

School of Electrical Engineering and Computer Science

The Pennsylvania State University

207 Electrical Engineering West

University Park, PA 16802

814-863-6740

Department of Computer Science and Engineering

814-865-9505

Department of Electrical Engineering

814-865-7667