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Publications

  1. Giannopoulos, A. V.; Kasten, A. M.; Long, C.; Chen, C. and Choquette, K.D. “Two- Dimensional Integration of a Vertical Cavity Surface Emitting Laser and Photodetectors for Position Sensing,” Appl. Optics. 47, 4555-4559 (Sept. 2008)
  2. Kasten, A. M.; Sulkin, J. D.; Leisher, P. O.; McElfresh, D. K; Vacar, D. and Choquette, K. D. “Manufacturable Photonic Crystal Single Mode and Fluidic Vertical Cavity Surface Emitting Lasers,” (invited) J. Sel. Topics. Quan. Electron. 14, 1123-1131 July- Aug (2008).
  3. Gupta, C.; Shannon, M. A.; Kenis, P. J. A., “Mechanisms of charge transport through self assembled alkanethiol monolayer films on polycrystalline gold substrates", J. Phys. Chem. C, 2009, 113 (11), pp 4687–4705. DOI: 10.1021/jp8090045
  4. Dalavoy, T. S.; Wernette, D. P.; Gong, M.; Sweedler, J. V.; Lu, Y.; Flachsbart, B. R.; Shannon, M. A.; Bohn, P. W.; Cropek, D., “Immobilization of DNAzyme catalytic beacons on PMMA for Pb2+ detection, Lab on a Chip March 20, 2008, 8, 786 – 793
  5. Gong, M.; Flachsbart, B. R.; Shannon, M. A.; Bohn, P. W.; Sweedler, J. V., “Fluidic Communication between Multiple Vertically Segregated Microfluidic Channels Connected by Nanocapillary Array Membranes”, Electrophoresis, March 2008, 29, 1237- 1244.
  6. Schudel, B. R.; Choi, C. J.; Cunningham, B. T.; Kenis, P. J. A., “Microfluidic chip for combinatorial mixing and screening of assays,” Lab on a Chip, accepted March, 2009.
  7. Barry III, R.A.; Shepherd, R.F.; Hanson, J.N.; Nuzzo, R.J.; Wiltzius, P.; Lewis, J.A., “Direct-Write Assembly of 3D Hydrogel Scaffolds for Guided Cell Growth,” Advanced Materials (accepted) 2009
  8. Park, J. U.; Lee, J. H.; Paik, U.; Lu, Y.; Rogers, J. A., “Nanoscale Patterns of Oligonucleotides Formed by Electrohydrodynamic Jet Printing with Applications in Biosensing and Nanomaterials Assembly”, Nano Letters, vol. 8 (12), pp. 4210-4216 (Oct. 2008).
  9. Choi, H. K.; Park, J. U.; Park, O.O.; Ferreira, P. M.; Georgiadis, J. G.; Rogers, J. A., “Scaling Laws for Jet Pulsations Associated with High Resolution Electrohydrodynamic Printing”, Applied Physics Letters, vol. 92, 123109 (March 2008).
  10. Wang, Z. and Lu, Y., “Functional DNA Directed Assembly of Nanomaterials for Biosensing”, J. Mater. Chem. (Jan. 2009) (Invited review) (in press) Cover
  11. Wang, Z.; Lee, J. H. and Lu, Y., “Highly Sensitive “Turn-on” Fluorescent Sensor for Hg2+ in Aqueous Solution based on Structure-Switching DNA” Chem. Commun. 6005- 6007 (Oct. 2008)
  12. Lee, J. H.; Wang, Z.; Liu, J. and Lu, Y., “Highly Sensitive and Selective Colorimetric Sensors for Uranyl (UO22+): Development and Comparison of Labeled and Label-Free DNAzyme-Gold Nanoparticle Systems” J. Am. Chem. Soc. 130, 14217–14226 (Oct. 2008)
  13. Wang, Z.; Lee, J. H. and Lu, Y., “Label-Free Colorimetric Detection of Lead Ions with a Nanomolar Detection Limit and Tunable Dynamic Range by using Gold Nanoparticles and DNAzyme” Adv. Mater. 20, 3263-3267 (July 2008)
  14. Muskin, J., Wattnem, J., Ragusa, M. and Hug, B., “Real Science or Marketing Hype: Student-Designed Experiments Test the Antimicrobial Effects of Silver Nanoparticles,” The Science Teacher, 75(4), 57-61 (April 2008).
  15. Suk, M. E.; Raghunathan, A. V. and Aluru, N. R., “Fast reverse osmosis using boron nitride and carbon nanotubes”, Applied Physics Letters, Vol. 92, No. 13, Art. No. 133120, (April 2008).
  16. Xu, Y. and Aluru, N. R., “Carbon nanotube screening effects on the water-ion channels”, Applied Physics Letters, Vol. 93, No. 4, Art. No. 043122, (July 2008).
  17. Joseph S. and Aluru, N. R., “Pumping of confined water in carbon nanotubes by rotation-translation coupling”, Physical Review Letters, Vol. 101, No. 6, Art. No. 064502, (Aug. 2008).
  18. Won, C. Y. and Aluru, N. R., “Water phase transition induced by a Stone-Wales defect in a boron nitride nanotube”, Journal of the American Chemical Society, Vol. 130, No. 41, pp. 13649-13652, (Sept. 2008).
  19. Gatimu, E. N.; Jin, X.; Aluru, N. R. and Bohn, P. W., “Perturbation of microfluidic transport following electrokinetic injection through a nanocapillary array membrane: Injection and biphasic recovery”, Journal of Physical Chemistry C, Vol. 112, No. 49, pp. 19242-19247, (Oct. 2008).
  20. Park, J. H. and Aluru, N. R., “Diffusion of water submonolayers on hydrophilic surfaces”, Applied Physics Letters, Vol. 93, No. 25, Art. No. 253104, (Dec.2008).
  21. Kasten, A. M.; Tan, M. P.; Sulkin, J. D.; Leisher, P. O. and Choquette, K. D., “Photonic Crystal Vertical Cavity Lasers with Wavelength Independent Single Mode Behavior,” IEEE Photon. Tech. Lett. 20, 2010-2012 (Dec. 2008).
  22. Choi, C. J.; Cunningham, B. T.; Kenis, P. J. A., "Photonic Crystal Integrated Microfluidic Chip for Determination of Kinetic Reaction Rate Constants," submitted to Sensors & Actuators, (January 2009).
  23. Lee, J. and King, W. P.; “Improved All-Silicon Microcantilever Heaters with Integrated Piezoresistive Sensing,” Journal of Microelectromechanical Systems, 17:2, (April 2008).
  24. Rowland, H. D.; Cross, G. L. W.; O’Connell, B. S.; Pethica, J. B. and King, W. P., “Measuring Glassy and Viscoelastic Polymer Flow in Molecular-Scale Gaps using a Flat Punch Mechanical Probe,” ACS Nano, 2:3, 419-428, (March 2008).
  25. Park, K.; Bhargava, R. and King, W. P.; “Routine Femtogram-Level Chemical Analysis using Vibrational Spectroscopy and Self-Cleaning Scanning Probe Microscopy Tips,” Analytical Chemistry, 80, 3221-3228, (March 2008).
  26. Lee, J. and King, W. P., “Microthermogravimetry using a Microcantilever Hotplate with Integrated Temperature Compensated Piezoresistive Strain Sensors,” Review of Scientific Instruments, 79, 054901, (May 2008). Republished online in the Virtual Journal of Nanoscience and Nanotechnology.
  27. Park, K.; Zhang, Z. M. and King, W. P.; “Experimental Investigation on the Heat Transfer Between a Heated Microcantilever and a Substrate,” Journal of Heat Transfer, 130, 102401-1-102401-9, (October 2008).
  28. Lee, W.-Y.; Whitman, L. J.; Lee, J.; King, W. P. and Sheehan, P. E., “The Nanopatterning of Stimulus-Responsive Polymer by Thermal Dip Pen Nanolithography,” Soft Matter, 4, 1844-1847, (July 2008).
  29. Rowland, H. D.; King, W. P.; Pethica, J. B. and Cross, G. L. W., “Molecular Confinement Accelerates Deformation of Entangled Polymers During Squeeze Flow,” Science, 322, 720-724, (October 2008).
  30. Lee, J. and King, W. P., “Liquid Operation of Silicon Microcantilever Heaters,” IEEE Sensors Journal, 8:11, 1805-1806, (November 2008).
  31. Lee, J.; Spadaccini, C. M.; Mukerjee, E. V. and King, W. P., “Differential Scanning Calorimeter based Suspended Membrane Single Crystal Silicon Micro Hotplate,” Journal of Microelectromechanical Systems, 17:6, 1513-1525, (Dec. 2008).
  32. Privorotskaya, N. and King, W. P.; “The Mechanics of Polymer Swelling on Microcantilever Sensors,” Microsystem Technologies Journal, 15, 333-340, (July 2008).
  33. Dai, Z. T.; King, W. P. and Park, K, “100 nm Scale Resistive Heater-Thermometer on a Silicon Cantilever,” Nanotechnology, 20, 095301, 2009.
  34. Conrad, J. C. and Lewis, J. A., “Structure of Colloidal Gels during Microchannel Flow”, Langmuir, 24, 7628-34 (Aug 2008).
  35. Fortuna, S. A.; Wen, J-G.; Chun, I. and Li, X., “Planar GaAs Nanowires on GaAs (100) Substrates: Self-aligned, Nearly twin-defect free, and Transfer-printable,” Nano Letters, 8, 4421-4427 (November 2008).
  36. Li, X., “Strain Induced Semiconductor Nanotubes and Related 3D Architectures: from formation process to device applications”, J. Phys. D. Invited topical review, 41, 193001 (Oct. 2008).
  37. Chun, I. S. and Li, X., “Controlled Assembly and Dispersion of Strain Induced InGaAs- GaAs Nanotubes,” IEEE Trans. Nanotechnology, 7, 493 (July 2008).
  38. Chun, I. S.; Chow, E. K. and Li, X., “Nanoscale three dimensional pattern formation in light emitting porous silicon,” Appl. Phys. Lett. 92, 191113 (May 2008).
  39. Chun, I. S.; Verma, V. B.; Elarde, V. C.; Kim, S. W.; Zuo, J. M; Coleman, J. J. and Li, X., “InGaAs/GaAs 3D Architecture Formation by Strain Induced Self-Rolling with Lithographically Defined Rectangular Stripe Arrays,” J. Cryst. Growth, 310, 2353, (April 2008).
  40. Brown, A. K.; Liu, J.; Ying He and Lu, Y., “Biochemical Characterization of a Uranyl Ion-Specific DNAzyme,” ChemBioChem. 10, 486-492 (2009).
  41. Kim, H-K; Li, J; Nagraj, N. and Lu, Y., “Probing Metal Binding in the 8-17 DNAzyme via TbIII Luminescence Spectroscopy,” Chem. Eur. J. 14, 8696-8703 (May 2008).
  42. Cao, Z. and Lu, Y., “New Metallo-DNAzymes: Fundamental Studies of Metal-DNA Interactions and Metal Sensing Applications,” In “Metal Complex-DNA Interactions,” Nick Hadjiliadis and Einar Sletten, Eds., Wiley-Blackwell, Oxford, UK (in press).
  43. Lu, Y. and Liu, J. “Catalyst-functionalized Nanomaterials,” WIREs Nanomed Nanobiotechnologies 1, 35 (Nov. 2008).
  44. Mazumdar, D.; Liu, J. and Lu, Y., “Functional Nucleic Acid-Directed Assembly of Nanomaterials and their Applications as Colorimetric and Fluorescent Sensors for Trace Contaminants in Water,” In Nanotechnology Applications: Solutions for Improving Water Quality (Eds. Mamadou Diallo, Jeremiah Duncan, Nora Savage, Anita Street & Richard Sustich), (in press) 2009.
  45.  Lu, Y. and Yingfu Li “Functional Nucleic Acids for Sensing and Other Analytical Applications,” Springer, New York, NY (in press) 2009.
  46. Liu, J. and Lu, Y., “Colorimetric Biosensors Based on Directed Assembly of Nanoparticles with Functional DNA,” In “Functional Nucleic Acids for Sensing and Other Analytical Applications,” Edited by Lu, Y., and Li, Y., Springer, New York, NY (in press) June 2008.
  47. Kim, B. Y.; Yang, J.; Gong, M.; Flachsbart, B. R.; Shannon, M. A.; Bohn, P. W. and Sweedler, J. V., “Multidimensional Separation of Chiral Amino Acid Mixtures in a Multilayered Three Dimensional Hybrid Microfluidic/Nanofluidic Device”, Anal. Chem., (March 2009), in press.
  48. Gong, M.; Bohn, P. W. and Sweedler, J. V., “Centrifugal Sedimentation for Selectively Packing Channels with Silica Microbeads in Three-Dimensional Micro/Nanofluidic Devices”, Anal. Chem., (Jan. 2009), in press.
  49. Balasubramanian, A., Jun, M. B. G., DeVor, R. E. and Kapoor, S. G., “A sub-micron multi-axis positioning stage of micro-and nano-scale manufacturing processes”, ASME Journal of Manufacturing Science and Engineering, 130, 031112, (June 2008).
  50. Ahn, J-H.; Zhu, Z.; Park; S-I.; Xiao, J.; Huang, Y. and Rogers, J.A., “Defect tolerance and Nanomechanics in transistors that use semiconductor nanomaterials and ultrathin dielectrics,” Advanced Functional Materials, v 18, pp 2535-2540, Sept. 2008 (cover feature article).
  51. Baca, A.J.; Ahn, J-H.; Sun, Y.; Meitl, M.A.; Menard, E.; Kim, H-S.; Choi, W.M.; Kim, D-H.; Huang, Y. and Rogers, J.A., “Semiconductor wires and ribbons for highperformance flexible electronics,” Angewandte Chemie – International Edition, v 47, pp 5524-5542, (Aug. 2008) (review article).
  52. Chen, X. and Huang, Y, “Nanomechanics modeling and simulation of carbon nanotubes,” Journal of Engineering Mechanics, v 134, pp 211-216, (March 2008). Chen, Y.L.; Liu, B.; Wu, J.; Huang, Y.; Jiang, H. and Hwang, K.C., “Mechanics of hydrogen storage in carbon nanotubes,” Journal of the Mechanics and Physics of Solids, v 56, pp 3224-3241, (July 2008).
  53. Chen, Y.L.; Liu, B.; Yin, Y.J.; Huang, Y. and Hwang, K.C., “Nonlinear deformation processes and damage modes of super carbon nanotubes with armchair-armchair topology,” Chinese Physics Letters, v 25, pp 2577-2580, (July 2008).
  54. Feng, X.; Jiang, H.; Huang, Y.; Liu, B. and Chen, J. S., “Modeling fracture in carbon nanotubes using a meshless atomic-scale finite element method,” Journal of Mechanics, v 60, pp 50-55, (April 2008).
  55. Jiang, H.; Khang, D-Y.; Fei, H.; Kim, H.; Huang, Y.; Xiao, J and Rogers, J.A., “Finite width effect of thin films buckling on compliant substrate: Experimental and theoretical studies,” Journal of the Mechanics and Physics of Solids, v 56, pp 2585-2598, (March 2008).
  56. Jiang, H.; Sun, Y.; Rogers, J. A., and Huang, Y, “Post-buckling analysis for the precisely controlled buckling of thin film encapsulated by elastomeric substrates,” International Journal of Solids and Structures, v 45, pp 2014-2023, (April 2008).
  57. Jiang, Y. Y.; Zhou, W.; Kim, T.; Huang, Y. and Zuo, J. M., “Measurement of radial deformation of single-wall carbon nanotubes induced by intertube van der Waals forces,” Physical Review B, v 77, article 153405, (April 2008).
  58.  Kim, D-H.; Ahn, J-H.; Choi, W-M.; Kim, H-S.; Kim, T-H.; Song, J.; Huang, Y.; Liu, Z.; Lu, C. and Rogers, J. A., “Stretchable and foldable silicon integrated circuits,” Science, v 320, pp 507-511, (March 2008).
  59. Kim, D-H.; Choi, W. M.; Ahn, J-H.; Kim, H-S.; Song, J.; Huang, Y.; Liu, Z.; Lu, C.; Koh, C. G. and Rogers, J. A., “Complementary metal oxide silicon integrated circuits incorporating monolithically integrated stretchable wavy interconnects,” Applied Physics Letters, v 94, article 044102, (July 2008).
  60. Kim, D-H.; Song, J.; Choi, W-M.; Kim, H-S.; Kim, R-H.; Liu, Z.; Huang, Y.; Hwang, K.C.; Zhang, Y. W.; and Rogers, J. A., “Materials and non-coplanar mesh designs for integrated circuits with linear elastic responses to extreme mechanical deformations,” Proceedings of the National Academy of Sciences of the United States of America, v 105, pp 18675-18680, (Dec. 2008) (cover feature article).
  61. Ko, H.C.; Stoykovich, M. P.; Song, J.; Malyarchuk, V.; Choi, W.M.; Yu, C-J.; Geddes, J.B. III; Xiao, J.; Wang, S.; Huang, Y. and Rogers, J. A., “A hemispherical electronic eye camera based on compressible silicon optoelectronics,” Nature, v 454, pp 748-753, (Aug. 2008) (cover feature article).
  62. Liu, B. and Huang, Y., “The stable finite element method for minimization problems,” Journal of Computational and Theoretical Nanoscience, v 5, pp 1251-1254, (July 2008).
  63. Lu, W.B.; Wu, J.; Song, J.; Hwang, K.C.; Jiang, L.Y. and Huang, Y., “A cohesive law for interfaces between multi-wall carbon nanotubes and polymers due to the van der Waals interactions,” Computer Methods in Applied Mechanics and Engineering, v 197, pp 3261-3267, (July 2008).
  64. Park, S-I.; Ahn, J-H.; Feng, X.; Wang, S.; Huang, Y. and Rogers, J. A., “Theoretical and experimental studies of bending of inorganic electronic materials on plastic substrates,” Advanced Functional Materials, v 18, pp 2673-2684, (September 2008).
  65. Peng, J.; Wu, J.; Hwang, K.C.; Song, J. and Huang, Y., “Can a single-wall carbon nanotube be modeled as a thin shell?” Journal of the Mechanics and Physics of Solids, v 56, pp 2213-2224, (June 2008).
  66. Song, J.; Jiang, H.; Liu, Z. J.; Khang, D-Y.; Huang, Y.; Rogers, J. A.; Lu, C.; Koh, C.G., “Buckling of a stiff thin film on a compliant substrate in large deformation,” International Journal of Solids and Structures, v 45, pp 3107-3121, (May 2008).
  67. Song, J.; Wu, J.; Huang, Y. and Hwang, K. C., “Continuum modeling of boron nitride nanotubes,” Nanotechnology, v 18, article 445705, (Sept. 2008).
  68. Song, J.; Wu, J.; Huang, Y.; Hwang, K.C. and Jiang, H., “Stiffness and thickness of boron nitride nanotubes,” Journal of Nanoscience and Nanotechnology, v 8, pp 3774- 3780, (July 2008).
  69. Wang, S.; Song, J.; Kim, D-Y., Huang, Y. and Rogers, J. A., “Local versus global buckling of thin films on elastomeric substrates,” Applied Physics Letters, v 93, article 023126, (July 2008).
  70. Wu, J.; Hwang, K.C.; Huang, Y. and Song, J., “A finite-deformation shell theory for carbon nanotubes based on the interatomic potential. Part I: Basic theory,” Journal of Applied Mechanics (ASME Transactions), v 75, article 061006, (Nov. 2008).
  71. Wu, J.; Hwang, K. C.; Song, J. and Huang, Y., “A finite-deformation shell theory for carbon nanotubes based on the interatomic potential. Part II: Instability analysis,” Journal of Applied Mechanics (ASME Transactions), v 75, article 061007, (Nov. 2008).
  72. Wu, J.; Hwang, K. C.; Song, J. and Huang, Y., “Material and structural instabilities of single-wall carbon nanotubes,” Acta Mechanica Sinica, v 24, pp 285-288, (March 2008).
  73. Xiao, J.; Carlson, A.; Liu, Z. J.; Huang, Y.; Jiang, H. and Rogers, J. A., “Stretchable and compressible thin films of stiff materials on compliant wavy substrates,” Applied Physics Letters, v 93, article 013109, (July 2008).
  74. Xiao, J.; Jiang, H.; Khang, D-Y.; Wu, J.; Huang, Y. and Rogers, J. A., “Mechanics of buckled carbon nanotubes on elastomeric substrate,” Journal of Applied Physics, v 104, article 033543, (Aug. 2008).
  75. Yoon, J.; Baca, A. J.; Park, S-I.; Elvikis, P.; Geddes, J. B. III; Li, L.; Kim, R. H.; Xiao, J.; Wang, S.; Kim, T. H.; Motala, M. J.; Ahn, B. Y.; Duoss, E. B.; Lewis, J. A.; Nuzzo, R.
  76. G.; Ferreira, P. M.; Huang, Y.; Rockett, A. and Rogers, J. A., “Ultrathin Silicon Solar Microcells for Semitransparent, Mechanically Flexible and Microconcentrator Module
    77. Designs,” Nature Materials, v 7, pp 907-915, (Nov.2008) (cover feature article).
  77. Zhang, Z. Q.; Liu, B.; Chen, Y. L.; Jiang, H.; Hwang, K. C. and Huang, Y., “Mechanical properties of functionalized carbon nanotubes,” Nanotechnology, v 19, article 395702, (Aug. 2008).
  78. Gong, M.; Kim, B.Y.; Flachsbart, B.; Shannon, M.A.; Bohn, P.W.; Sweedler, J.V., “An On-chip Fluorogenic Enzyme Assay Using a Multilayer Microchip Interconnected With a Nanocapillary Array Membrane”, IEEE Sensors Journal, Vol. 8, No. 5, 601-607, (May 2008).
  79. Prakash, S.; Piruska, A.; Gatimu, Enid, N.; Bohn, P.; Sweedler, J.; Shannon, M.A., “Nanofluidics: Systems and Applications”, IEEE Sensors Journal, Vol. 8, No.5, 441-450, (May 2008).
  80. Wu, Y.; Gupta, C.; Shannon, M.A., “Effect of solution concentration, surface bias and protonation on the dynamic response of amplitude-modulated atomic force microscopy in water”, Langmuir, 24(19), 10817-10824, 10.1021/la801295c, (July 2008).
  81. Cole, M. C. and Kenis, P. J. A., “Multiplexed electrical sensor arrays in microfluidic networks,” Sensors and Actuators B: Chemical, Volume 136, Issue 2, 2 (March 2009), Pages 350-358.
  82. Piruska, A.; Branagan, S.; Cropek, D.M.; Sweedler, J. V. and Bohn, P. W., “Electrokinetically driven fluidic transport in integrated three-dimensional microfluidic devices incorporating gold-coated nanocapillary array membranes,” Lab on a chip (Oct. 2008), Vol. 8(10), 1625
  83. Wang, Z; King, T.L.; Branagan, S.; Bohn, P.W., “Enzymatic activity of surfaceimmobilized horseradish peroxidase confined to micrometer- to nanometer-scale structures in nanocapillary array membranes”, Analyst, 2009, DOI: 10.1039/b815590a
  84. Dong, J.; Salapaka, S. M. and Ferreira, P. M., “Robust Control of a Parallel Kinematic Nano-Positioner,” ASME Journal of Dynamic Systems and Control, 130(4), 041007 (15 pp) (July 2008).
  85. Jeong, J. H.; Dong J. and Ferreira, P. M., “Self-calibration of Dual-actuated Single-axis Nanopositioners,” Measurement Science and Technology, 19, 045203, (April 2008).
  86. Dong, J. and Ferreira, P. M., “Simultaneous Actuation and Displacement Sensing for Electrostatic Drives,” Journal of Micromechanics and Microengineering, 18, 035011, (March 2008).
  87. Mukhopadhyay D.; J. Dong, J.; Pengwang, E. and Ferreira, P. M., “A SOI MEMSbased 3-DOF Planar Parallel-Kinematics Nanopositioning Stage,” Sensors and Actuators A 147 340–351, (Sept. 2008).
  88. Bristow, D.A.; Dong, J.; Alleyne, A.G.; Ferreira, P. M., Salapaka, S. M., "High Bandwidth Control of Precision Motion Instrumentation", Review of Scientific Instruments, 79(10), 103704 (Oct. 2008).
  89. Dong, J.; Ferreira, P. M., "Electrostatically Actuated Cantilever with SOI-MEMS Parallel Kinematic XY Stage", In press, IEEE/ASME Journal of Microelectromechanical Systems, February 2009
  90. Helfrich, B. E.; Lee, C.; Bristow, D. A.; Xiao, X. H.; Dong, J.; Alleyne, A. G.; Salapaka, S. M.; Ferreira, P. M., "Combined H∞-Feedback Control and Iterative Learning Control Design with Application to Nanopositioning Systems", Accepted by IEEE Transactions on Control Systems Technology (June 2008)
  91. Bristow, D. A.; Alleyne, A. G., “Monotonic Convergence of Iterative Learning Control for Uncertain Systems using at Time-varying Filter,” IEEE Transactions on Automatic Control, 53:2, 582-585, (March 2008).
  92. Barton, K. and Alleyne, A. G., “A Cross-Coupled Iterative Learning Control Design for Precision Motion Control,” IEEE Transactions on Control Systems Technology, Vol. 16, No. 6, pp. 1218-1231, (Nov. 2008).
  93. Hoelzle, D. J; Alleyne, A. G. and Wagoner Johnson, A. J., “Development of Micro Robotic Deposition Guidelines by a Design of Experiments Approach to Maximize Process Reliability for the Bone Scaffold Application,” Acta Biomaterialia, 4:4, 897-912, (July 2008).
  94. Bristow, D. A.; Tharayil, M. and Alleyne, A. G.,” Optimizing Learning Convergence Speed and Converged Error for Precision Motion Control,” ASME Journal of Dynamic Systems Measurement and Control, 130, Article No. 054501, (Sept. 2008).
  95. Chaturvedi P.; Hsu, K.-H.; Zhang, S. and Fang, N. X., “New frontiers of Metamaterials: Design and Fabrication”, MRS Bulletin, 33:10, 915-920, (Oct 2008).
  96. Logeeswaran, V. J.; Kobayashi, N. P.; Islam, M. S.; Wu, W.; Chaturvedi, P; Fang, N. X.; Wang, S. Y. and Williams, R. S., “Ultrasmooth Silver Thin Films Deposited with a Germanium Nucleation Layer”, Nano Letters, , 9:1, 178–182, 2009.
  97. Hsu, K. H.; Schultz, P. L.; Fang, N. X. and Ferreira, P. M., “Electrochemical Nanoimprinting of Silver and Copper with the Solid-State Superionic Stamping (S4) Process” in Soft Lithography, Ed. John Rogers and Hong H. Lee, John Wiley and Sons, 2009.
  98. Kim, T.-H.; Choi, W. M.; Kim, D.-H.; Meitl, M. A.; Menard, E.; Jiang, H.; Carlisle, J. A. and Rogers, J. A., “Printable, flexible, and stretchable forms of ultrananocrystalline diamond with applications in thermal management,” Advanced Materials, 20:2171-2176 (May 2008).
  99. Cao, Q. and Rogers, J. A., “Random networks and aligned arrays of single-walled carbon nanotubes for electronic device applications,” Nano Res, 1:259-272 (October 2008).
  100. Kim, D.-H. and Rogers, J. A., “Stretchable electronics: Materials strategies and devices,” Adv. Mater., 20:4887-4892 (December 2008).
  101. Cao, Q. and Rogers, J. A., “Ultrathin films of single-walled carbon nanotubes for electronics and sensors: a review of fundamental and applied aspects,” Adv. Mater., 21:29-53 (2009). Gupta, C.; Shannon, M. A.; Kenis, P. J. A., "Electronic properties of a monolayerelectrolyte interface obtained from mechanistic impedance analysis", J. Phys. Chem. C, 2009, in press.
  102. R.F. Shepherd, P. Panda, Z. Bao, J.A. Lewis, K.H. Sandhage, T.A. Hatton, and P.S. Doyle, “Stop-flow lithography of colloidal, glass, and silicon microcomponents,” Advanced Materials, 20, 4734-39 (2008). (cover article)
 
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