PROFESSIONAL APPOINTMENTS
|
|
- Melanie Hodges
- 6 years ago
- Views:
Transcription
1 , Ph.D. Associate Professor Nanoscale Precision Sensing Laboratory Department of Mechanical Engineering Sogang University, K323 Sinsu-dong, Mapo-gu, Seoul , South Korea Phone: Webpage: RESEARCH INTERESTS Large scale batch fabrication of functional nanostructures based on silicon self-assembly, Hydrogel based micro-/nanoelectromechanical systems (MEMS/NEMS), Materials and processing for flexible, stretchable, and wearable devices, Nanoscale 3D printing, Multifunctional atomic force microscopy, Single molecule force/mass spectroscopy, Highprecision Laser metrology EDUCATION Cambridge, MA Massachusetts Institute of Technology Postdoctoral Researcher; Biological Engineering Advisor: Scott R. Manalis Urbana, IL University of Illinois at Urbana Champaign Postdoctoral Researcher; Mechanical Science and Engineering Advisor: William P. King Atlanta, GA Georgia Institute of Technology Ph.D. in Mechanical Engineering (Major: MEMS, Minor: Heat transfer) Dissertation: Fabrication, Characterization, and Application of Multifunctional Microcantilever Heaters Advisor: William P. King Seoul, Korea Seoul National University M.S. in Mechanical and Aerospace Engineering (Mechanical Engineering) Thesis: A study on Optimization of Two-Constant Fuel Model Coefficients for Transient Condition of an SI Engine Advisor: Sangken Kauh B.S. in Mechanical and Aerospace Engineering (Mechanical Engineering) Advisor: Wooil Lee PROFESSIONAL APPOINTMENTS Edmonton University of Alberta Canada Adjunct Professor; Chemical and Materials Engineering Seoul, Korea Sogang University 2014 present Associate Professor; Mechanical Engineering Seoul, Korea Sogang University Assistant Professor; Mechanical Engineering 1 J. Lee
2 AWARDS 6. The Society of Micro Nano Systems Academic award The 1 st KSME-SEMES open innovation challenge, Silver prize 4. The 70 th Korean Society of Mechanical Engineers Fall Conference Best Paper Award (Corresponding Author) 3. The 18 th Korean MEMS Conference Best Poster Presentation Award (Corresponding Author) 2. The 17 th Korean MEMS Conference Industrial Innovation Award (Corresponding Author) 1. Best paper award of the year 2013, Journal of Mechanical Science and Technology (Corresponding Author) JOURNAL PUBLICATIONS (selected publications highlighted in blue) 61. S. Kim, J. Song, and J. Lee, Facile batch fabrication of hydrogel atomic force microscope cantilevers via capillary filling and ultraviolet curing in an aligned elastomeric mold pair submitted to Journal of Microelectromechanical Systems. 60. L. Zhang, W. Zheng, H. Lee, J. Lee, L. Wu, and D. Kim, A study of morphological evolution of silicon micro-structure based on phase field model, submitted to Microsystem Technologies. 59. S. Chaudhari, K. Chaudhari, S. Kim, F. Khan, J. Lee, and T. Thundat, Electrophoresis assisted time-of-flow mass spectrometry using hollow nanomechanical resonators, Scientific Reports (under revision). 58. D. Lee, J. Kim, N. Cho, T. Kang, S. Kauh, and J. Lee, Pulled microcapillary tube resonators with electrical readout for mass sensing applications, Scientific Reports, 6, (2016). 57. K. Kim, S. Kim, T. Kim, W. Kim, and J. Lee, Spray-coated liquid metal reflectors for transparent hydrogel atomic force microscope cantilevers, Journal of Microelectromechanical Systems, 25(5), p (2016). 56. I. Chae, M. F. Khan, J. Song, T. Kang, J. Lee, and T. Thundat, Standoff mechanical resonance spectroscopy based on infrared-sensitive hydrogel microcantilevers, Analytical Chemistry, 88(19), p (2016). 55. S. Kim, J. Lee, and B. Choi, 3D printed fluidic valves for remote operation via external magnetic field, International Journal of Precision Engineering and Manufacturing, 17(7), p (2016). 54. M. F. Khan, N. Miriyal, J. Lee, M. Hassanpourfard, A. Kumar, and T. Thundat, Rapid heat capacity measurements of sub-nanoliter liquids using biomaterial microchannel cantilevers, Applied Physics Letters, 108, (2016). 53. J. Lee, J. Song, S. Kim, S. Kim, W. Lee, J. Jackman, D. Kim, N. Cho, and J. Lee, Multifunctional hydrogel nano-probes for atomic force microscopy, Nature Communications 7:11566, doi: /ncomms11566, (2016). 52. S. Hamian, A. M. Gauffreau, T. Walsh, J. Lee, and K. Park, AC electrothermal characterization of doped-si heated microcantilevers using frequency-domain finite element analysis, Journal of Heat Transfer, 138(5), (2016). 51. J. Kim, J. Song, K. Kim, S. Kim, J. Song, N. Kim, M. F. Khan, L. Zhang, J. E. Sader, K. Park, D. Kim, T. Thundat, and J. Lee, Hollow microtube resonators via silicon self-assembly toward subattogram mass sensing applications, Nano Letters, 16(3), p (2016). 50. S. Kim, J. Lee, and B. Choi, Stretching and twisting sensing with liquid-metal strain gauges printed on silicone elastomers, IEEE Sensors Journal, 15(11), p (2015). 2 J. Lee
3 49. J. Choi, S. Kim, J. Lee, and B. Choi, Improved capacitive pressure sensors based on liquid alloy and silicone elastomer, IEEE Sensors Journal, 15(8), p (2015). 48. T. Walsh, J. Lee, and K. Park, Laser-assisted photothermal heating of a plasmonic nanoparticle- suspended droplet in a microchannel, Analyst, 140(5), p (2015). 47. J. Je and J. Lee, Design, fabrication, and characterization of liquid metal microheaters, Journal of Microelectromechanical Systems, 23(5) p (2014). 46. D. Lee, M. Lee, N. Jung, M. Yun, J. Lee, T. Thundat, S. Jeon, Modulus-tunable magnetorheological elastomer microcantilevers, Smart Materials and Structures, 23, (2014). 45. H. Park, B. Lee, and J. Lee, Simultaneous determination of local temperature and thickness of heated cantilevers using two-wavelength thermoreflectance, Review of Scientific Instruments, 85, (2014). Selected as Editor s Picks from Review of scientific Instruments ( ). 44. S. Olcum, N. Cermak, S. C. Wasserman, K. S. Christine, H. Atsumi, K. Payer, W. Shen, J. Lee, A. M. Belcher, S. N. Bhatia, and S. R. Manalis, Weighing nanoparticles in solution at the attogram scale, Proceedings of the National Academy of Sciences of the United States of America, 111(4) p (2014). 43. M. Yun, I. Lee, S. Jeon, and J. Lee, Facile phase transition measurements for nanogram level liquid samples using suspended microchannel resonators, IEEE Sensors Journal, 14(3) p (2014). 42. M. Yang, J. Choi, J. Lee, N. Hur, and D. Kim, Wet blasting as a deburring process for aluminum, Journal of Materials Processing Technology, 214(3), p (2014). 41. I. Lee and J. Lee, Highly uniform and controllable micropatterning of a hydrogel on microcantilevers, Journal of Mechanical Science and Technology, 27(11) p (2013). 40. J. Kim, J. Lee, and B. Choi, Fabrication and characterization of strain gauge integrated polymeric diaphragm pressure sensors, International Journal of Precision Engineering and Manufacturing, 14(11) p (2013). 39. J. Kim, S. Han, T. Walsh, K. Park, B. Lee, W.P. King, and J. Lee, Temperature measurements of heated microcantilevers using scanning thermoreflectance microscopy, Review of Scientific Instruments, 84, (2013). 38. I. Lee and J. Lee, Measurement uncertainties in resonant characteristics of MEMS resonators, Journal of Mechanical Science and Technology, 27(2), p (2013). 37. I. Lee, K. Park, and J. Lee, Precision density and volume contraction measurements of ethanol-water binary mixtures using suspended microchannel resonators, Sensors and Actuators A, 194, p (2013). 36. J. Park, K. Kim, J. Lee, H. Kim, and D. Huh, Organomimetic microsystems technologies, Biomedical Engineering Letters, 2, p (2012). 35. I. Lee, K. Park, and J. Lee, Precision viscosity measurement using suspended microchannel resonators, Review of Scientific Instruments, 83, (2012). 34. J. Lee, B.J. Lee, and W.P. King, Deflection sensitivity calibration of heated microcantilevers using pseudo-gratings, IEEE Sensors Journal, 12(8), p (2012). 33. Y. Kwon, H. Lee, J. Lee, and B. Choi, Vibration mode-dependent energy harvesting characteristics of magnetoelectric composite cantilevers, IEEE Sensors Journal, 12(11), p (2012). 32. J.E. Sader, T.P. Burg, J. Lee, and S.R. Manalis, Energy dissipation in microfluidic beam resonators: Effect of Poisson s ratio, Physical Review E, 84, (2011). 31. J. Lee, A.K. Bryan, S.R. Manalis, High precision mass sensing using microchannel 3 J. Lee
4 resonators in the second vibration mode, Review of Scientific Instruments, 82, (2011). Republished online in the Virtual Journal of Nanoscale Science and Technology. 30. J. Lee, R. Chunara, W. Shen, K. Payer, K. Babcock, T.P. Burg, and S.R. Manalis, Suspended microchannel resonators with piezoresistive sensors, Lab on a Chip, 11, p (2011). 29. J.E. Sader, J. Lee, and S.R. Manalis, Energy dissipation in microfluidic beam resonators: Dependence on mode number, Journal of Applied Physics, 108, (2010). 28. J. Lee, W. Shen, K. Payer, T.P. Burg, and S.R. Manalis, Toward attogram mass measurements in solution with suspended nanochannel resonators, Nano Letters, 10(7), p (2010). Highlighted in Nature Nanotechnology. 27. N. Privorotskaya, Y. Liu, J. Lee, H. Zeng, J.A. Carlisle, A. Radadia, L. Millet, R. Bashir, and W.P. King, Rapid thermal lysis of cells using silicon-diamond microcantilever heaters, Lab on a Chip, 10, p (2010). 26. J. Lee, A. Liao, E. Pop, and W.P. King, Electrical and thermal coupling to a single-wall carbon nanotube device using an electro-thermal nanoprobe, Nano Letters, 9(4), p (2009). 25. O.A. Nafday, B.L. Weeks, W.P. King, J. Lee, Inducing nanoscale morphology changes of pentaerythritol tetranitrate using a heated atomic force microscope cantilever, Journal of Energetic Materials, 27(1), p.1-16 (2009). 24. J. Lee, C. M. Spadaccini, E. V. Mukerjee, and W.P. King, Differential scanning calorimeter based on suspended membrane single crystal silicon micro hotplate, Journal of Microelectromechanical Systems, 17(6), p (2008). 23. J. Lee and W.P. King, Liquid operation of silicon microcantilever heaters, IEEE Sensors Journal, 8(11) p (2008). 22. A. Loui, F.T. Goericke, T.V. Ratto, J. Lee, B.R. Hart, and W.P. King, The effect of piezoresistive microcantilever geometry on cantilever sensitivity during surface stress chemical sensing, Sensors and Actuators A, 147, p (2008). 21. W. Lee, L.J. Whitman, J. Lee, W.P. King, and P.E. Sheehan, The nanopatterning of a stimulus responsive polymer by thermal dip-pen nanolithography, Soft Matter, 4, p (2008). 20. J. Lee, H. Hunter, A. Glezer, and W.P. King, Phase change and cooling characteristics of microjets measured using microcantilever heaters, Sensors and Actuators A, 147, p (2008). 19. J. Lee, F. Goericke, and W.P. King, Temperature dependent thermomechanical noise spectra of doped silicon microcantilevers, Sensors and Actuators A, , p (2008). 18. J. Lee and W.P. King, Microthermogravimetry using a microcantilever hotplate with integrated temperature compensated piezoresistive strain sensors, Review of Scientific Instruments, 79, (2008). Republished online in the Virtual Journal of Nanoscale Science and Technology. 17. K. Park, J. Lee, R. Bhargava, and W.P. King, Routine femtogram-level chemical analyses using vibrational spectroscopy and self-cleaning scanning probe microscopy tips, Analytical Chemistry, 80, p (2008). 16. J. Lee and W.P. King, Improved all-silicon microcantilever heaters with integrated piezoresistive sensing, Journal of Microelectromechanical Systems, 17(2), p (2008). 15. F. Goericke, J. Lee, and W.P. King, Microcantilever hotplates with temperaturecompensated piezoresistive strain sensors, Sensors and Actuators A, 143, p (2008). 4 J. Lee
5 14. J. Lee and W.P. King, Microcantilever actuation via periodic internal heating, Review of Scientific Instruments, 78, (2007). Republished online in the Virtual Journal of Nanoscale Science and Technology. One of the 20 most downloaded articles from Review of Scientific Instruments during December D. Wang, R. Szoszkiewicz, M. Lucas, E. Riedo, T. Okada, S.C. Jones, S.R. Marder, J. Lee, and W.P. King, Local wettability modification by thermomechanical nanolithography, Applied Physics Letters, 91, (2007). Republished online in the Virtual Journal of Nanoscale Science and Technology. 12. J.L. Remmert, Y. Wu, J. Lee, M.A. Shannon, and W.P. King, Contact potential measurement using a heated atomic force microscope tip, Applied Physics Letters, 91, (2007). 11. K. Park, J. Lee, Z.M. Zhang, and W.P. King, Topography imaging with a heated atomic force microscope cantilever in tapping mode, Review of Scientific Instruments, 78, (2007). Republished online in the Virtual Journal of Nanoscale Science and Technology. 10. B.W. Chui, L. Aeschimann, T. Akiyama, U. Staufer, N.F. de Rooij, J. Lee, F. Goericke, W.P. King, and P. Vettiger, Advanced temperature compensation for piezoresistive sensors based on crystallographic orientation, Review of Scientific Instruments, 78, (2007). Republished online in the Virtual Journal of Nanoscale Science and Technology. 9. K. Park, J. Lee, Z.M. Zhang, and W.P. King, Frequency-dependent electrical and thermal response of heated atomic force microscope cantilevers, Journal of Microelectromechanical Systems, 16(2), p (2007). 8. J. Lee, T.L. Wright, M.R. Abel, E.O. Sunden, A. Marchenkov, S. Graham, and W.P. King, Thermal conduction from microcantilever heaters in partial vacuum, Journal of Applied Physics, 101, (2007). Republished online in the Virtual Journal of Nanoscale Science and Technology. 7. J. Lee and W.P. King, Microcantilever hotplates: Design, fabrication, and characterization, Sensors and Actuators A, 136, p (2007). 6. K.J. Kim, K. Park, J. Lee, Z.M. Zhang, and W.P. King, Nanotopographical imaging using a heated atomic force microscope cantilever probe, Sensors and Actuators A, 136, p (2007). 5. J. Lee, K. Naeli, H. Hunter, J. Berg, T.L. Wright, C. Courcimault, N. Naik, M.G. Allen, O. Brand, A. Glezer, and W.P. King, Characterization of liquid and gaseous micro- and nanojets using microcantilever sensors, Sensors and Actuators A, 134, p (2007). 4. N. Naik, C. Courcimault, H. Hunter, J. Berg, J. Lee, K. Naeli, T.L. Wright, M.G. Allen, O. Brand, A. Glezer, and W.P. King, Microfluidics for generation and characterization of liquid and gaseous micro and nanojets, Sensors and Actuators A, 134, p (2007). 3. A. Allen, A. Cannon, J. Lee, W.P. King, and S. Graham, Flexible microdevices based on carbon nanotubes, Journal of Micromechanics and Microengineering, 16, p (2006). 2. J. Lee, T. Beechem, T.L. Wright, B.A. Nelson, S. Graham, and W.P. King, Electrical, thermal, and mechanical characterization of silicon microcantilever heaters, Journal of Microelectromechanical Systems, 15(6), p (2006). 1. E.O. Sunden, T.L. Wright, J. Lee, W.P. King, and S. Graham, Room-temperature chemical vapor deposition and mass detection on a heated atomic force microscope cantilever, Applied Physics Letters, 88, (2006). Republished online in the Virtual Journal of Nanoscale Science and Technology. 5 J. Lee
6 CONFERENCE PROCEEDINGS AND PRESENTATIONS 73. S. Kim, J. Song, and J. Lee, Facile fabrication of multiple hydrogel atomic force microscope cantilevers via capillary filling and ultraviolet curing in an alignment PDMS mold pair, The 30 th IEEE MEMS, Las Vegas, USA, January D. Lee, S. Kauh, and J. Lee, Pulled microcapillary tube resonators for high precision microdroplet size measurements, The 30 th IEEE MEMS, Las Vegas, USA, January S. Kim, Y. Yoon, and J. Lee, Direct assembly of a hydrogel nano-tip onto silicon microcantilevers for wear study and facile regeneration of soft atomic force microscope probes, The 30 th IEEE MEMS, Las Vegas, USA, January Nominated as one of 12 outstanding student paper award finalists. 70. S. Kim, S. Cho, and J. Lee, Can hydrogel AFM cantilevers outperform silicon counterparts?, The 4 th Kanazawa Bio-AFM Workshop, Kanazawa, Japan, October D. Lee, J. Kim, N. Cho, S. Kauh, and J. Lee, Microcapillary mass sensors with electrical readout via quartz tuning fork, The 13 th International Workshop on Nanomechanical Sensing, Delft, Netherlands, June S. Kim and J. Lee, Wear characteristics of hydrogel atomic force microscope probes under dynamic mode imaging, Spring conference of the Korean Society of Mechanical Engineers Micro/nano division, Busan, Korea, May D. Lee, S. Kauh, and J. Lee, Harnessing electrical readout for microcapillary tube string resonators with quartz tuning forks, Spring conference of the Korean Society of Mechanical Engineers Micro/nano division, Busan, Korea, May J. Song, S. Kim, and J. Lee, Development of Fabrication Processes for Nanochannel Resonators towards High Resolution Mass Sensing Applications in Liquids, The 18 th Korean MEMS Conference, Jeju Island, Korea, April J. Lee, J. Song, and J. Lee, Nanotribological and wear characteristics of hydrogel nanotips and facile regeneration for atomic force microscope applications, The 18 th Korean MEMS Conference, Jeju Island, Korea, April K. Kim, J. Lee, T. Kim, W. Kim, and J. Lee, Development of liquid metal mirror for optical-lever detection of transparent hydrogel atomic force microscope cantilevers, The 18 th Korean MEMS Conference, Jeju Island, Korea, April D. Lee, J. Kim, N. Cho, S. Kauh, and J. Lee, Nanoliter level liquid density measurements using microtube resonance detection via quartz tuning fork, The 18 th Korean MEMS Conference, Jeju Island, Korea, April S. Kim, J. Lee, and J. Lee, Effect of scan parameters on the tip wear and imaging quality of hydrogel atomic force microscope cantilevers using non-contact mode imaging, The 18 th Korean MEMS Conference, Jeju Island, Korea, April J. Song, J. Je, and J. Lee, Towards multiscale fluidic channel networks via internal oxidation and oxide etching based on self-assembled silicon-on-nothing structures, The 29 th IEEE MEMS, Shanghai, China, January I. Chae, F. Khan, J. Song, J. Lee, J. Lee, and T. Thundat, Standoff infrared spectroscopy on energetic materials using hydrogel microcantilevers, The 29 th IEEE Conference on Micro Electro Mechanical Systems, Shanghai, China, January S. Kim and J. Lee, Development of hyperelastically stretchable strain gauge based on liquid metals and platinum catalyzed silicone elastomers, Fall conference of the Korean Society of Mechanical Engineers, Jeju Island, Korea, October K. Kim, J. Lee, and J. Lee, Liquid metal reflective coating for optical detection of 6 J. Lee
7 transparent atomic force microscope cantilevers, Fall conference of the Korean Society of Mechanical Engineers, Jeju Island, Korea, October S. Kim, and J. Lee, Micro thermal sensor using florescent ref-shift of quantum-dot encapsulated hydrogel probe, Fall conference of the Korean Society of Mechanical Engineers, Jeju Island, Korea, October J. Song, J. Lee, and J. Lee, Fabrication of sub-20nm hydrogel cantilever tip using oxygen plasma ashing for high-resolution imaging, Fall conference of the Korean Society of Mechanical Engineers, Jeju Island, Korea, October J. Lee, J. Song, and J. Lee, Nanotribogical and wear characteristics of hydrogel nanotips and facile regeneration, Fall conference of the Korean Society of Mechanical Engineers, Jeju Island, Korea, October J. Kim, J. Je, J. Song, K. Kim, S. Kim, and J. Lee, Novel wafer-batch fabrication strategy for microfluidic resonators, The 5 th Canada-Korea Conference on Science and Technology, Calgary, Canada, July J. Kim and J. Lee, Novel wafer-level batch fabrication strategy for microfluidic resonators, The 12 th International Workshop on Nanomechanical Sensing, Auckland, New Zealand, July S. Kim, J. Choi, B. Choi, and J. Lee, Hyper-elastically stretchable gauges based on liquid metals and platinum-catalyzed silicone elastomers, The 18 th International Conference on Solid- State Sensors, Actuators and Microsystems, Anchorage, USA June J. Lee, J. Je, J. Song, and K. Kim, Novel wafer-level batch fabrication technique for microfluidic resonators, Spring conference of the Korean Society of Mechanical Engineers Micro/nano division, Busan, Korea, May J. Kim, J. Song, and J. Lee, Microtube resonator for high resolution mass sensing in liquids, The 17 th Korean MEMS Conference, Jeju Island, Korea, April J. Choi, S. Kim Lee, J. Lee, and B. Choi, Development of hyperelastic strain gauges based on liquid metals and platinum catalyzed silicone elastomers, The 17 th Korean MEMS Conference, Jeju Island, Korea, April S. Kim, J. Kim, J. Lee, and B. Choi, Development of custom atomic force microscope combined with digital mask lithography, The 17 th Korean MEMS Conference, Jeju Island, Korea, April J. Je and J. Lee, Towards batch fabrication of nanochannels and suspended nanotubes based on silicon on nothing structures, The 17 th Korean MEMS Conference, Jeju Island, Korea, April J. Song and J. Lee, Hydrogel microcantilever, a superior AFM cantilever for the exploration of biological phenomena in cellular level, The 17 th Korean MEMS Conference, Jeju Island, Korea, April J. Lee and J. Lee, Shape, size and tip sharpness tuning of hydrogel microcantilevers via ultra-violet curing with elastomeric replica moulds, The 17 th Korean MEMS Conference, Jeju Island, Korea, April J. Kim and J. Lee, Development of microfluidic resonators via silicon-on-nothing technique, The 28 th IEEE Conference on Micro Electro Mechanical Systems, Estoril, Portugal, January J. Lee, Hydrogel microcantilevers for atomic force microscopy applications, The 16 th International Scanning Probe Microscopy Conference, Seoul, Korea, July J. Lee and I. Lee, Development of hydrogel microcantilevers for localized material delivery 7 J. Lee
8 applications, The 11 th International Workshop on Nanomechanical Sensing, Madrid, Spain, April J. Song and J. Lee, Development of low stiffness hydrogel microcantilevers for highprecision stiffness measurements of biological samples, The 16 th Korean MEMS Conference, Jeju Island, Korea, April J. Kim and J. Lee, Effects of XeF2 etch undercut on resonant characteristics of silicon dioxide microbridges, The 16 th Korean MEMS Conference, Jeju Island, Korea, April I. Lee and J. Lee, Development of hydrogel microcantilevers for local functional material delivery, The 16 th Korean MEMS Conference, Jeju Island, Korea, April J. Je and J. Lee, Development of liquid metal microheaters with reliable electrode configuration, The 16 th Korean MEMS Conference, Jeju Island, Korea, April I. Lee and J. Lee, Fabrication and characterization of all hydrogel cantilevers for atomic force microscopy applications, The 27 th IEEE Conference on Micro Electro Mechanical Systems, San Francisco, USA, January J. Je and J. Lee, Fabrication and characterization of liquid metal microheaters, Fall conference of the Korean Society of Mechanical Engineers, Kangwon, Korea, December I. Lee, and J. Lee, Fabrication of hydrogel atomic force microscope cantilevers using dynamic mask lithography, Fall conference of the Korean Society of Mechanical Engineers, Kangwon, Korea, December W. Lee, J. Lee, and S. Kang, Analysis of flow characteristics for viscosity sensing applications of suspended microchannel resonators, Fall conference of the Korean Society of Mechanical Engineers, Kangwon, Korea, December I. Lee and J. Lee, Highly uniform and controllable Micropatterning of a Hydrogel on microcantilever Sensors, The 17 th International Conference on Solid-State Sensors, Actuators and Microsystems, Barcelona, Spain, June J. Kim, B. J. Lee, W. P. King and J. Lee, Optical heating and temperature sensing of heated microcantilevers using two-wavelength thermoreflectance, The 10 th International Workshop on Nanomechanical Sensing, California, USA, May I. Lee and J. Lee, One-step fabrication of hydrogel microcantilevers using dynamic mask photolithography, The 10 th International Workshop on Nanomechanical Sensing, California, USA, May D. Estrada, Z. Li, S. Dunham, G. Choi, N. Wang, Y. Meng, F. Lian, J. Lee, J. Zuo, W. P. King, J. A. Rogers, D. G. Cahill, and E. Pop, Thermal anisotropy of layer-by-layer assembled graphene films, 2013 MRS Spring Meeting, California, USA, April J. Kim, B. J. Lee, and J. Lee, Thermal characterization of heated microcantilevers using two-wavelength laser thermoreflectance microscopy, The 15 th Korean MEMS Conference, Jeju, Korea, April I. Lee and J. Lee, Highly controllable local patterning of a hydrogel on microcantilevers, The 15 th Korean MEMS Conference, Jeju, Korea, April J. Kim, S. Han, K. Park, B. J. Lee, W. P. King and J. Lee, DC and AC electrothermal characterization of heated microcantilevers using scanning thermoreflectance microscopy, The 26 th IEEE Conference on Micro Electro Mechanical Systems, Taipei, Taiwan, January J. Kim and J. Lee, DC and AC thermal characterization of heated microcantilevers using thermoreflectance microscopy, Fall conference of the Korean Society of Mechanical Engineers, Changwon, Korea, November I. Lee and J. Lee, Precision density and volume change measurements of ethanol-water 8 J. Lee
9 binary mixtures using suspended microchannel resonators, Fall conference of the Korean Society of Mechanical Engineers, Changwon, Korea, November I. Lee and J. Lee, Measurement of mixing ratio and volume change of ethanol-water binary mixtures using suspended microchannel resonators, The 11 th IEEE SENSORS, Taipei, Taiwan, October I. Lee and J. Lee, Quality factor and vibration amplitude based viscosity measurements using suspended microchannel resonators, The 11 th IEEE SENSORS, Taipei, Taiwan, October I. Lee and J. Lee, Low volume and high precision viscosity measurement with suspended microchannel resonators, The 9 th International Workshop on Nanomechanical Sensing, Mumbai, India, June J. Kim, I. Lee and J. Lee, Bimodal mass sensing using suspended microchannel resonators, The 14 th Korean MEMS Conference, Jeju, Korea, April I. Lee and J. Lee, Measurement uncertainties in resonant characteristics of MEMS resonators, The 14 th Korean MEMS Conference, Jeju, Korea, April J. Lee, G. Chen, W. Shen, K. Payer, T. Burg, W. Rodriguez, M. Toner, and S. Manalis, Weighing nanoparticles and viruses using suspended nanochannel resonators, The 24 th IEEE Conference on Micro Electro Mechanical Systems, Cancun, Mexico, J. Lee and S.R. Manalis, Second eigenmode operation of suspended microchannel resonators for high precision flow through mass sensing, Hilton Head Workshop 2010: A Solid- State Sensors, Actuators, and Microsystems Workshop, Hilton Head Island, SC, Y. Liu, N. Privorotskaya, J. Lee, H. Zeng, J.A. Carlisle, A. Radadia, L. Millet, R. Bashir, and W.P. King, Rapid thermal lysis of cells using silicon-diamond microcantilever heaters, The 7 th International Workshop on Nanomechanical Cantilevers, Banff, Canada, C. M. Spadaccini, E. V. Mukerjee, J. Lee, and W.P. King, Rapid thermal analysis of energetic materials with microfabricated differential scanning calorimeters, The 15 th International Conference on Solid-State Sensors, Actuators, and Microsystems, Denver, CO, J. Lee, C. M. Spadaccini, E. V. Mukerjee, and W.P. King, Suspended membrane single crystal silicon micro hotplate for differential scanning calorimetry, The 22 nd IEEE Conference on Micro Electro Mechanical Systems, Sorrento, Italy, K. Park, J. Lee, W. P. King, and R. Bhargava, Femtogram-level spectroscopic analysis using functional self-cleaning scanning probe tips, The 59 th Annual Pittsburgh Conference and Exposition on Analytical Chemistry and Applied Spectroscopy, New Orleans, LA, J. Lee and W.P. King, Heated atomic force microscope cantilevers for nanoscience and nanoengineering, The 10 th International scanning probe microscopy conference, Seattle, WA, D. Wang, T. Okada, R. Szoszkiewicz, S.C. Jones, M Lucas, J. Lee, W.P. King, S.R. Marder, E. Riedo, Reversible nanoscale local wettability modifications by thermochemical nanolithography, Materials Research Society Symposium, v. 1059, Y. Hua, C.L. Henderson, J. Lee, and W.P. King, Nanolithography on crosslinked polymers using heated AFM cantilever probes, The 51 st International Conference on Electron, Ion, and Photon Beam Technology and Nanofabrication, Denver, CO, J. Lee and W.P. King, Array of microcantilever heaters with integrated piezoresistors, IEEE International Conference on Nanotechnology 2007, Hong Kong, J. Lee, F.T. Goericke, and W.P. King, Temperature dependent mechanical properties of 9 J. Lee
10 doped silicon microcantilevers, The 14 th International Conference on Solid-State Sensors, Actuators, and Microsystems, Lyon, France, K. Park, J. Lee, Z.M. Zhang, and W.P. King, Nanotopographic imaging using heated microcantilever in tapping mode, The 14 th International Conference on Solid-State Sensors, Actuators, and Microsystems, Lyon, France, J. Lee, H. Hunter, F. T. Goericke, N. Naik, M.G. Allen, A. Glezer, and W.P. King, IPACK Measurements of microjet cooling and phase change characteristics using microcantilever heaters, The ASME/Pacific Rim Technical Conference and Exhibition on Integration and Packaging of MEMS, NEMS, and Electronic Systems, Vancouver, BC, J. Lee, T. Beechem, K. Park, Z.M. Zhang, S. Graham, and W.P. King, Thermal and mechanical characterization and calibration of heated microcantilevers, Hilton Head Workshop 2006: A Solid-State Sensors, Actuators, and Microsystems Workshop, Hilton Head Island, SC, J. Lee, K. Naeli, H. Hunter, J. Berg, T.L. Wright, C. Courcimault, N. Naik, M.G. Allen, O. Brand, A. Glezer, and W.P. King, IMECE Micro-cantilever based metrology tool for flow characterization of liquid and gaseous micro/nanojets, ASME International Mechanical Engineering Congress & Exposition, Orlando, FL, N. Naik, C. Courcimault, J. Berg, H. Hunter, J. Lee, K. Naeli, T. Wright, M.G. Allen, O. Brand, A. Glezer and W.P. King, IMECE Fabrication and characterization of liquid and gaseous micro- and nanojets, ASME International Mechanical Engineering Congress & Exposition, Orlando, FL, J. Lee, T.L. Wright, M.R. Abel, E.O. Sunden, A. Marchenkov, S. Graham, and W.P. King, IPACK Characterization of heated atomic force microscope cantilevers in air and vacuum, The ASME/Pacific Rim Technical Conference and Exhibition on Integration and Packaging of MEMS, NEMS, and Electronic Systems, San Francisco, CA, A. Hammiche, M. Reading, T.L. Wright, J. Lee, W.P. King, H.M. Pollock, and R. Shetty, Nanothermal analysis (n-ta) and photothermal IR micro-spectroscopy (PTMS), at sub-250 nm spatial resolution, STM 2005 The 13 th International Conference on Scanning Tunneling Microscopy/Spectroscopy and Related Techniques, Sapporo, Japan, W.P. King, J. Lee, J. Berg, and A. Glezer, Microcantilever measurements in microscale liquid jets, 2004 Meeting of the American Physical Society, Division of Fluid Dynamics, Seattle, WA, PATENTS 22. J. Lee, S. Kim, and J. Lee, Temperature measurement using quantum dot integrated hydrogel cantilevers, (Korea) 21. J. Lee, D. Lee, S. Kauh, and J. Kim, Microtube resonator using quartz tuning fork, (Korea) 20. J. Lee, B. Choi, and S. Kim, High resolution liquid metal patterning process using superelasticity materials, (Korea). 19. J. Lee, B. Choi, S. Kim, and J. Choi, High resolution liquid metal patterning process using atomic force microscopy micro cantilever probe, (Korea). 18. J. Lee and S. Kim, Liquid metal based thermocouple, (Korea). 17. J. Lee, K. Kim, S. Kim, and J. Lee, Liquid metal based reflecting plate, (Korea). 16. J. Lee, K. Kim, and S. Kim, Fluid injectable vacuum clamp, (Korea). 10 J. Lee
11 15. J. Lee and J. Kim, Silicon microchannel resonator and fabrication method of the same, PCT/KR2015/ J. Lee, S. Kim, and J. Lee, Temperature measurement using quantum dot integrated hydrogel cantilevers, (Korea), PCT/KR2016/ J. Lee and J. Kim, Fine channel resonator and manufacturing method of the same, PCT/KR2014/ J. Lee, J. Song, and I. Lee, Fabrication method of atomic force microscope tip, (Korea), PCT/KR2014/ J. Lee and J. Kim, Fabrication method of tube resonator sensor via internal cavity deposition, (Korea). 10. J. Lee, M. Lee, and J. Jeong, Production system of custom cast using 3-D printer, (Korea). 9. J. Lee and J. Kim, Silicon microchannel resonator and fabrication method of the same, (Korea). 8. J. Lee and J. Kim, Channel integrated cantilever fabrication using the Empty-Space-in- Silicon (ESS), (Korea). 7. J. Lee and J. Je, Fabrication of liquid metal based microfabricated heaters, (Korea). 6. B. Choi, J. Lee, and S. Kim, Dynamic-mask nanostereolithography using evanescent light and radiation pressure, (Korea), PCT/KR2014/ J. Lee and I. Lee, Fabrication of hydrogel microcantilever by using dynamic mask lithography, (Korea), PCT/KR2013/010515, 15/033,069 (US), (EPO) 4. S. Son, S. Byun, A. K. Bryan, T. Burg, A. Gulati, J. Lee, S. Manalis, Y. Weng, Apparatus and method for measuring buoyant mass and deformability of single cells, US B2 (2015). 3. J. Lee and I. Lee, Apparatus and method for micropatterning, (Korea). 2. W.P. King and J. Lee, Device for calorimetric measurement, US B2 (2015). 1. W.P. King, J. Lee, and F. Goericke, Microcantilever heater-thermometer with integrated temperature compensated strain sensor, US B2 (2011). INVITED TALKS 32. Unconventional fabrication processes and materials for high-performance mechanical transducer platforms, Seoul National University, Department of Mechanical and Aerospace Engineering ( ) 32. Measurement of micro-/nanoparticles using fluidic channel integrated resonant mass sensors, International Intellectual Property Training Institute ( ) 31. Toward single molecule mass spectroscopy using microfabricated mechanical resonators, Korea Institute of Machinery and Materials ( ) 30. Hollow microtube resonators High resolution mass sensing and beyond, Korea Institute of Machinery and Materials ( ) 29. Pulled microcapillary resonators with electrical readout using a quartz tuning fork, University of Alberta, Department of Chemical and Materials Engineering ( ) 28. Multifunctional hydrogel nanoprobes, Ulsan National Institute of Science and Technology, The 1 st UNIST-Sogang Joint Workshop ( ) 27. Unconventional processes and materials for microfabricated mechanical resonators, 11 J. Lee
12 University of Alberta, Department of Chemical and Materials Engineering ( ) 26. Hollow tube resonators for high resolution mass sensing in liquids, Korea Institute of Materials Science ( ) 25. Hollow tube resonators for high resolution mass sensing in liquids, The Catholic University of Korea ( ) 24. Hollow tube resonators for high resolution mass sensing in liquids, Korea Institute of Science and Technology ( ) 23. Hollow tube resonators for high resolution mass sensing in liquids, Kwangwoon University, Department of Electronic Engineering ( ) 22. Hollow tube resonators for mass sensing applications in liquids, Nanyang Technological University, Department of Materials Science and Engineering ( ) 21. Towards single molecule mass and force spectroscopy using microfabricated mechanical resonators, Pohang University of Science and Technology, Department of Chemical Engineering ( ) 20. Hydrogel microcantilevers for atomic force microscopy applications, Park Systems ( ) 19. Hollow tube nanofluidic resonators for sub-attogram mass sensing in liquid, Korea University, Department of Mechanical Engineering ( ) 18. Hollow tube nanofluidic resonators for sub-attogram mass sensing in liquid, Myongji University, Department of Mechanical Engineering ( ) 17. Hollow tube nanofluidic resonators for sub-attogram mass sensing in liquid, University of Alberta, Department of Chemical and Materials Engineering ( ) 16. Pioneering hydrogel MEMS (Microelectromechanical systems)-hydrogel micropatterning via maskless lithography, University of Alberta, Department of Chemical and Materials Engineering ( ) 15. Hollow tube nanofluidic resonators for sub-attogram mass sensing in liquid, Ulsan National Institute of Science and Technology, School of Mechanical and Advanced Materials Engineering ( ) 14. Pioneering hydrogel MEMS (Microelectromechanical Systems): Hydrogel micropatterning using dynamic mask lithography, Korea Institute of Machinery and Materials ( ) 13. Hollow tube nanofluidic resonators for sub-attogram mass sensing in liquid, HCT ( ) 12. Pioneering hydrogel MEMS (Microelectromechanical Systems): Hydrogel micropatterning using dynamic mask lithography, Korea Advanced Institute of Science and Technology, Department of Mechanical Engineering ( ) 11. Pioneering hydrogel microelectromechanical systems (MEMS), Sophia University ( ) 10. Pioneering hydrogel MEMS (Microelectromechanical Systems): Hydrogel micropatterning using dynamic mask lithography, Pohang University of Science and Technology, Department of Mechanical Engineering ( ) 9. Micro- and nanoscale particle and fluid measurements with high-q fluidic beam resonators, The Catholic University of Korea ( ) 8. Micro- and nanoscale particle and fluid measurements with high-q fluidic beam resonators, Chonnam University, Department of Mechanical Engineering ( ) 7. Recent advances in particle and cell sizing with high-q fluidic beam resonators, Pohang University of Science and Technology, Department of Chemical Engineering ( ) 12 J. Lee
13 6. Recent advancements in particle and cell sizing using high-q fluidic resonators (SMRs), University of Alberta, Department of Chemical and Materials Engineering ( ) 5. Recent advancements in particle and cell sizing using high-q fluidic resonators (SMRs), Seoul National University, YMEMS summer Workshop ( ) 4. Recent Advancements in Particle and Cell sizing with Suspended Microchannel Resonators, University of Illinois at Urbana-Champaign, Department of Mechanical Science and Engineering ( ) 3. Microfabricated Cantilevers: A promising tool for Biotech- and Nanotechnology, Sogang University, Department of Mechanical Engineering ( ) 2. Recent advancements in particle and cell sizing with suspended microchannel resonators, University of Rhode Island, Department of Mechanical, Industrial and Systems Engineering ( ) 1. Microcantilever sensors with integrated functional elements, Massachusetts Institute of Technology, Department of Biological Engineering ( ) CURRENT & PREVIOUS FUNDED PROJECTS 11. PI, Commercialization of hydrogel based atomic force microscope microcantilevers, Commercializations Promotion Agency for R&D Outcomes, KRW 340,000,000: 04/27/ /26/ PI, Collaboration research and research exchange for development of ultra sensitive detection platforms for matters suspended in liquids, National Research Foundation, KRW 30,000,000: 03/01/ /28/ PI, Large area nanochannel fabrication based on high temperature silicon self assembly for zeptogram level mass sensor development, National Research Foundation, KRW 400,000,000: 11/01/ /31/ PI, Standardization infra establishment for flexible seminconductors, Korea Evaluation Institute of Industrial Technology, KRW 40,000,000: 05/01/ /30/ PI, Fabrication and application of hydrogel atomic force microscope cantilevers for stiffness measurements of biological samples via digital mask lithography, National Research Foundation, KRW 180,000,000: 12/01/ /30/ PI, Fabrication and application of microelectromechanical systems (MEMS) cantilever sensors based on hydrogel and dynamic mask lithography, Korea Foundation for the Advancement of Science and Creativity, KRW 10,000,000: 09/02/ /28/ PI, Development of heater-integrated nanofluidic resonators for gravimetric and thermal measurements of nanoparticles, National Research Foundation, KRW 390,000,000: 09/01/ /31/ Co-PI, Development of status monitoring and therapeutic system for urologic diseases, Korea Health Industry Development Institute, KWR 700,000,000: 05/01/ /31/2016, with B. Choi (PI) at Sogang University. 3. PI, Development of sub-attogram resolution nanofluidic resonator mass sensors for single virus detection, National Research Foundation, KRW 150,000,000: 05/01/ /30/ PI, High precision nanoparticle sizing metrology development, Sogang University, KRW 14,000,000: 11/01/ /31/ Co-PI, Development of highly reliable bio-compatible wireless charging super battery, National Research Foundation, KRW 100,000,000: 09/01/ /30/2011, with B. Choi (PI) at Sogang University. 13 J. Lee
14 MEMBERSHIP & SERVICE Membership: The Korean Society of Mechanical Engineering (KSME), The Society of Micro and Nano Systems (SMNS), The Korean Sensors Society (KSS) The Korean Society of Noise and Vibration Engineering (KSNVE) Journal Editor: American Journal of Engineering and Applied Sciences (2016 Present), International Journal of Precision Engineering and Manufacturing (2017-Present) Journal Reviewer: Measurement (2015 Present), Journal of Microelectromechanical Systems (2014 Present), Analytical Chemistry (2014 Present), Sensors and Actuators, B-Chemical (2013 Present), International Journal of Thermal Sciences (2013 Present), Micro and Nano Systems Letters (2013 Present), Lab on a Chip (2012 Present), Proceedings of Royal Society A (2012 Present), Journal of Heat Transfer (2012 Present), Nanotechnology (2012 Present), Journal of Mechanical Science and Engineering (2012 Present), International Journal of Precision Engineering and Manufacturing (2012 Present), IEEE Sensors (2008 Present), Sensors and Actuators, A-Physical (2008 Present), Review of Scientific Instruments (2012 Present) Conference Committee Session Chair: Biotronics Conference (2014), KSME Conference (2012, 2013, 2014, 2015), KMEMS Conference (2013, 2014, 2015, 2016) COURSES TAUGHT Undergraduate MEE2006: Engineering Mathematics I (S2012, S2013, S2014, S2015, S2016), MEE2007: Engineering Mathematics II (F2012, F2013, F2014, F2015) MEE2025: Model Design and Fabrication (S2014), MEE2026: 2D Computer Aided Design (2D CAD) (S2014, F2014), MEE3015: Creative Engineering Design I (F2010), MEE4001: Product Design Analysis II Finite Element Analysis (S2011, S2012), MEE4014: MEMS design and fabrication (S2011) MEE4024: Measurement and Signal Processing (F2012, F2013, S2015, S2016) Graduate MEE5006: Introduction to the Finite Element Method (F2010), MEE6513: Introduction to Nanotechnology and Nanoengineering (F2011, S2013, F2015) STUDENT ADVISING Graduate Research Advisor for: Seokbeom Kim (ME, PhD Program), 2015-Present Yeowon Yoon (ME, MS Program), 2016-Present Bora Lee (ME, MS Program), 2017-Present Junhyuk Lee (ME, MS Program), 2017-Present Saeho Kwon (ME, MS Program), 2017-Present Undergraduate Research Advisor for: Kwangseok Kim (Major in ME), J. Lee
15 Daehwan Kim (Major in ME), Bora Lee (Major in ME), , Junhyuk Lee (Major in ME), Juhee Ko (Major in ME), 2016-Present Alumni: Il Lee (ME, MS), 2014 Samsung Electronics Joohyun Kim (ME, MS), 2015 Hyundai Kefico Jinsol Je (ME, MS), 2015 Samsung Electronics Jaeseol Lee (ME, MS), 2016 Samsung Electronics Jungki Song (ME, MS), 2016 Ph.D. program at Massachusetts Institute of Technology Kwangseok Kim (ME, MS), 2017 Samsung Electronics 15 J. Lee
AC Electrothermal Characterization of Doped-Si Heated Microcantilevers Using Frequency-Domain Finite Element Analysis
AC Electrothermal Characterization of Doped-Si Heated Microcantilevers Using Frequency-Domain Finite Element Analysis K. Park 1, S. Hamian 1, A. M. Gauffreau 2, T. Walsh 2 1 University of Utah, Salt Lake
More informationFoundations of MEMS. Chang Liu. McCormick School of Engineering and Applied Science Northwestern University. International Edition Contributions by
Foundations of MEMS Second Edition Chang Liu McCormick School of Engineering and Applied Science Northwestern University International Edition Contributions by Vaishali B. Mungurwadi B. V. Bhoomaraddi
More informationThesis: Theoretical analysis of the flow past a single sphere moving in a micro-tube National Taiwan University, Taipei, Taiwan
Sy-Bor Wen, Ph. D. Assistant Professor, Department of Mechanical Engineering TAMU 3123, Texas A&M University College Station, TX 77843 (979)458-0110; syborwen@tamu.edu Education: 2002-2006 University of
More informationInstitute for Electron Microscopy and Nanoanalysis Graz Centre for Electron Microscopy
Institute for Electron Microscopy and Nanoanalysis Graz Centre for Electron Microscopy Micromechanics Ass.Prof. Priv.-Doz. DI Dr. Harald Plank a,b a Institute of Electron Microscopy and Nanoanalysis, Graz
More informationEffect of AFM Cantilever Geometry on the DPL Nanomachining process
Int J Advanced Design and Manufacturing Technology, Vol. 9/ No. 4/ December 2016 75 Effect of AFM Cantilever Geometry on the DPL Nanomachining process A. R. Norouzi Department of New Sciences and Technologies,
More informationNanotechnology Fabrication Methods.
Nanotechnology Fabrication Methods. 10 / 05 / 2016 1 Summary: 1.Introduction to Nanotechnology:...3 2.Nanotechnology Fabrication Methods:...5 2.1.Top-down Methods:...7 2.2.Bottom-up Methods:...16 3.Conclusions:...19
More informationThere's Plenty of Room at the Bottom
There's Plenty of Room at the Bottom 12/29/1959 Feynman asked why not put the entire Encyclopedia Britannica (24 volumes) on a pin head (requires atomic scale recording). He proposed to use electron microscope
More informationKavli Workshop for Journalists. June 13th, CNF Cleanroom Activities
Kavli Workshop for Journalists June 13th, 2007 CNF Cleanroom Activities Seeing nm-sized Objects with an SEM Lab experience: Scanning Electron Microscopy Equipment: Zeiss Supra 55VP Scanning electron microscopes
More informationMicro/nano and precision manufacturing technologies and applications
The 4th China-American Frontiers of Engineering Symposium Micro/nano and precision manufacturing technologies and applications Dazhi Wang School of Mechanical Engineering Dalian University of Technology
More informationName; Kazuyuki Sakamoto Birth; December 5, 1966 (Kyoto, Japan) Sex; male Family; wife and 2 children Citizenship; Japan
April 1, 2015 Curriculum Vitae Name; Kazuyuki Sakamoto Birth; December 5, 1966 (Kyoto, Japan) Sex; male Family; wife and 2 children Citizenship; Japan Job Status; Professor, Department of Nanomaterials
More informationHighly Stretchable and Transparent Thermistor Based on Self-Healing Double. Network Hydrogel
Supporting Information Highly Stretchable and Transparent Thermistor Based on Self-Healing Double Network Hydrogel Jin Wu a, Songjia Han a, Tengzhou Yang a, Zhong Li c, Zixuan Wu a, Xuchun Gui a, Kai Tao
More informationESS 5855 Surface Engineering for. MicroElectroMechanicalechanical Systems. Fall 2010
ESS 5855 Surface Engineering for Microelectromechanical Systems Fall 2010 MicroElectroMechanicalechanical Systems Miniaturized systems with integrated electrical and mechanical components for actuation
More informationCharacterization of MEMS Devices
MEMS: Characterization Characterization of MEMS Devices Prasanna S. Gandhi Assistant Professor, Department of Mechanical Engineering, Indian Institute of Technology, Bombay, Recap Characterization of MEMS
More informationIntegrating MEMS Electro-Static Driven Micro-Probe and Laser Doppler Vibrometer for Non-Contact Vibration Mode SPM System Design
Tamkang Journal of Science and Engineering, Vol. 12, No. 4, pp. 399 407 (2009) 399 Integrating MEMS Electro-Static Driven Micro-Probe and Laser Doppler Vibrometer for Non-Contact Vibration Mode SPM System
More informationNanomechanics Measurements and Standards at NIST
Nanomechanics Measurements and Standards at NIST Robert F. Cook Deputy Chief, Ceramics Division Leader, Nanomechanical Properties Group robert.cook@nist.gov NIST Mission Promote U.S. innovation and industrial
More informationSüdliche Stadtmauerstr. 15a Tel: D Erlangen Fax:
Curriculum Vitae Lionel Santinacci 19.10.1974 Nationality: French Südliche Stadtmauerstr. 15a Tel: + 49 9131 852 7587 D-91054 Erlangen Fax: + 49 9131 852 7582 Germany e-mail: lionel@ww.uni-erlangen.de
More informationHow Does a Microcantilever Work?
How Does a Cantilever Work? Participant Guide Description and Estimated Time to Complete The microcantilever is a widely used component in microsystems devices or microelectromechanical systems (MEMS).
More informationMohtashim H. Shamsi (PhD) Southern Illinois University Carbondale Chemistry & Biochemistry (618)
Mohtashim H. Shamsi (PhD) Southern Illinois University Carbondale Chemistry & Biochemistry (618) 453-6461 Email: mshamsi@siu.edu Education PhD, University of Toronto, 2008-2012. Major: Bioanalytical Chemistry
More informationSupporting Information. Fast Synthesis of High-Performance Graphene by Rapid Thermal Chemical Vapor Deposition
1 Supporting Information Fast Synthesis of High-Performance Graphene by Rapid Thermal Chemical Vapor Deposition Jaechul Ryu, 1,2, Youngsoo Kim, 4, Dongkwan Won, 1 Nayoung Kim, 1 Jin Sung Park, 1 Eun-Kyu
More informationCall for Papers. 3 Steps to Contribute a Presentation. Submit. Submission Deadline: June 26 (Tue.), 2018 (17:00, JST)
Call for Papers 3 Steps to Contribute a Presentation Join JSAP Submit Register Regular Membership Admission Fee: 10,000 JPY Annual Due*: 10,000 JPY *Annual due will be waived for the first year. Graduate
More informationLecture 18: Microfluidic MEMS, Applications
MECH 466 Microelectromechanical Systems University of Victoria Dept. of Mechanical Engineering Lecture 18: Microfluidic MEMS, Applications 1 Overview Microfluidic Electrokinetic Flow Basic Microfluidic
More informationSimulation of a Micro-Scale Out-of-plane Compliant Mechanism
Simulation of a Micro-Scale Out-of-plane Compliant Mechanism by Arpys Arevalo PhD Candidate in Electrical Engineering Computer, Electrical and Mathematical Sciences and Engineering (CEMSE) King Abdullah
More informationPlatform Isolation Using Out-of-plane Compliant Mechanism
Platform Isolation Using Out-of-plane Compliant Mechanism by Arpys Arevalo PhD Candidate in Electrical Engineering Computer, Electrical and Mathematical Sciences and Engineering (CEMSE) King Abdullah University
More informationGeneral concept and defining characteristics of AFM. Dina Kudasheva Advisor: Prof. Mary K. Cowman
General concept and defining characteristics of AFM Dina Kudasheva Advisor: Prof. Mary K. Cowman Overview Introduction History of the SPM invention Technical Capabilities Principles of operation Examples
More informationIntroduction to Scanning Probe Microscopy Zhe Fei
Introduction to Scanning Probe Microscopy Zhe Fei Phys 590B, Apr. 2019 1 Outline Part 1 SPM Overview Part 2 Scanning tunneling microscopy Part 3 Atomic force microscopy Part 4 Electric & Magnetic force
More informationCURRICULUM VITAE HUAMIN LI UPDATED: DECEMBER 1, 2015 MAIN RESEARCH INTERESTS EDUCATION
CURRICULUM VITAE HUAMIN LI UPDATED: DECEMBER 1, 2015 Postdoctoral Research Associate Center for Low Energy Systems Technology (LEAST), Department of Electrical Engineering University of Notre Dame, B20
More informationTechnologies VII. Alternative Lithographic PROCEEDINGS OF SPIE. Douglas J. Resnick Christopher Bencher. Sponsored by. Cosponsored by.
PROCEEDINGS OF SPIE Alternative Lithographic Technologies VII Douglas J. Resnick Christopher Bencher Editors 23-26 February 2015 San Jose, California, United States Sponsored by SPIE Cosponsored by DNS
More informationEDUCATION PROFESSIONAL EXPERIENCE
Lawrence Friedman Assistant Professor Department of Engineering Science and Mechanics Pennsylvania State University 212 Earth and Engineering Sciences Building University Park, Pennsylvania 16802 1-814-865-7684
More informationAC : MEMS FABRICATION AS A MULTIDISCIPLINARY LABORATORY
AC 2007-524: MEMS FABRICATION AS A MULTIDISCIPLINARY LABORATORY Todd Kaiser, Montana State University Andrew Lingley, Montana State University Matt Leone, Montana State University Brad Pierson, Montana
More informationPROFESSIONAL EXPERIENCE
BRANDON L. WEEKS Professor, Department of Chemical Engineering Texas Tech University, Lubbock, TX 79409 Office: (806) 834-7450; Home (806) 796-7366; email: Brandon.weeks@ttu.edu RESEARCH INTERESTS Nanoscale
More informationImpact Factor Journals of Physics
Impact Journals of Physics Indexed in ISI Web of Science (JCR SCI, 2016) Compiled By: Arslan Sheikh In Charge Reference & Research Section Library Information Services COMSATS Institute of Information
More information2.76/2.760 Multiscale Systems Design & Manufacturing
2.76/2.760 Multiscale Systems Design & Manufacturing Fall 2004 MOEMS Devices for Optical communications system Switches and micromirror for Add/drops Diagrams removed for copyright reasons. MOEMS MEMS
More informationSCANNING-PROBE TECHNIQUES OR APPARATUS; APPLICATIONS OF SCANNING-PROBE TECHNIQUES, e.g. SCANNING PROBE MICROSCOPY [SPM]
G01Q SCANNING-PROBE TECHNIQUES OR APPARATUS; APPLICATIONS OF SCANNING-PROBE TECHNIQUES, e.g. SCANNING PROBE MICROSCOPY [SPM] Scanning probes, i.e. devices having at least a tip of nanometre sized dimensions
More informationPHYchip Corporation. SCU Nanotechnology Course presentation. Dhaval Brahmbhatt President & CEO. Friday, May 20 th, 2005
SCU Nanotechnology Course presentation Dhaval Brahmbhatt President & CEO Friday, May 20 th, 2005, San Jose, CA 95110. 1 Course Books (1) Primary Book: Introduction to Nanoscale Science and Technology Edited
More informationElectronic Supplementary information (ESI) for. High-Performance Electrothermal and Anticorrosive Transparent
Electronic Supplementary Material (ESI) for Journal of Materials Chemistry A. This journal is The Royal Society of Chemistry 2018 Electronic Supplementary information (ESI) for High-Performance Electrothermal
More informationVibration Studying of AFM Piezoelectric Microcantilever Subjected to Tip-Nanoparticle Interaction
Journal of Novel Applied Sciences Available online at www.jnasci.org 2013 JNAS Journal-2013-2-S/806-811 ISSN 2322-5149 2013 JNAS Vibration Studying of AFM Piezoelectric Microcantilever Subjected to Tip-Nanoparticle
More informationESH Benign Processes for he Integration of Quantum Dots (QDs)
ESH Benign Processes for he Integration of Quantum Dots (QDs) PIs: Karen K. Gleason, Department of Chemical Engineering, MIT Graduate Students: Chia-Hua Lee: PhD Candidate, Department of Material Science
More informationMODELING OF T-SHAPED MICROCANTILEVER RESONATORS. Margarita Narducci, Eduard Figueras, Isabel Gràcia, Luis Fonseca, Joaquin Santander, Carles Cané
Stresa, Italy, 5-7 April 007 MODELING OF T-SHAPED MICROCANTILEVER RESONATORS Margarita Narducci, Eduard Figueras, Isabel Gràcia, Luis Fonseca, Joaquin Santander, Carles Centro Nacional de Microelectrónica
More informationSimulation and Optimization of an In-plane Thermal Conductivity Measurement Structure for Silicon Nanostructures
32nd International Thermal Conductivity Conference 20th International Thermal Expansion Symposium April 27 May 1, 2014 Purdue University, West Lafayette, Indiana, USA Simulation and Optimization of an
More informationFlexible nonvolatile polymer memory array on
Supporting Information for Flexible nonvolatile polymer memory array on plastic substrate via initiated chemical vapor deposition Byung Chul Jang, #a Hyejeong Seong, #b Sung Kyu Kim, c Jong Yun Kim, a
More informationThe Fluid-Coupled Motion of Micro and Nanoscale Cantilevers
IOSR Journal of Mechanical and Civil Engineering (IOSR-JMCE) e-issn: 2278-1684,p-ISSN: 2320-334X PP. 54-58 www.iosrjournals.org The Fluid-Coupled Motion of Micro and Nanoscale Cantilevers T Paramesh Associate
More informationSupporting Information
Supporting Information Flexible, Cuttable and Self-Waterproof Bending Strain Sensors Using Microcracked Gold Nanofilms@Paper Substrate Xinqin Liao, 1, Zheng Zhang, 1, Qijie Liang, 1 Qingliang Liao, 1,
More informationSCME KIT OVERVIEW. Rainbow Wafer Kit
SCME KIT OVERVIEW Rainbow Wafer Kit Micro Nano Conference I - 2011 Objectives of Each Kit The SCME kits are designed to work both as a stand-alone activity as well as to support the materials introduced
More informationFabrication at the nanoscale for nanophotonics
Fabrication at the nanoscale for nanophotonics Ilya Sychugov, KTH Materials Physics, Kista silicon nanocrystal by electron beam induced deposition lithography Outline of basic nanofabrication methods Devices
More information>1000-Fold Lifetime Extension of Nickel Electromechanical Contact Device via Graphene
Supporting Information >1000-Fold Lifetime Extension of Nickel Electromechanical Contact Device via Graphene Min-Ho Seo, Jae-Hyeon Ko, Jeong Oen Lee,, Seung-Deok Ko,, Jeong Hun Mun, Byung Jin Cho, Yong-Hyun
More informationChapter 10. Nanometrology. Oxford University Press All rights reserved.
Chapter 10 Nanometrology Oxford University Press 2013. All rights reserved. 1 Introduction Nanometrology is the science of measurement at the nanoscale level. Figure illustrates where nanoscale stands
More informationQuantum Dots for Advanced Research and Devices
Quantum Dots for Advanced Research and Devices spectral region from 450 to 630 nm Zero-D Perovskite Emit light at 520 nm ABOUT QUANTUM SOLUTIONS QUANTUM SOLUTIONS company is an expert in the synthesis
More informationSUPPLEMENTARY INFORMATION
In the format provided by the authors and unedited. DOI: 10.1038/NPHOTON.2016.254 Measurement of non-monotonic Casimir forces between silicon nanostructures Supplementary information L. Tang 1, M. Wang
More informationIntroduction to Scanning Probe Microscopy
WORKSHOP Nanoscience on the Tip Introduction to Scanning Probe Microscopy Table of Contents: 1 Historic Perspectives... 1 2 Scanning Force Microscopy (SFM)... 2 2.1. Contact Mode... 2 2.2. AC Mode Imaging...
More informationCharacterization of an AlGaN/GaN Electrostatically Actuated Cantilever using Finite Element Method
Presented at the COMSOL Conference 2010 Boston Characterization of an AlGaN/GaN Electrostatically Actuated Cantilever using Finite Element Method Nicholas DeRoller, Muhammad Qazi, Jie Liu, and Goutam Koley
More informationCurriculum Vitae. Education Background
Curriculum Vitae Hu ZHANG MOE Key Laboratory of Thermo-Fluid Science and Engineering, School of Energy and Power Engineering, Xi an Jiaotong University, Xi an, 710049, China Mechanical Engineering, University
More informationIMPACT OF SILICON NITRIDE THICKNESS ON THE INFRARED SENSITIVITY OF SILICON NITRIDE-ALUMINUM MICROCANTILEVERS MATTHEW R. ROSENBERGER THESIS
IMPACT OF SILICON NITRIDE THICKNESS ON THE INFRARED SENSITIVITY OF SILICON NITRIDE-ALUMINUM MICROCANTILEVERS BY MATTHEW R. ROSENBERGER THESIS Submitted in partial fulfillment of the requirements for the
More informationSupporting Information
Supporting Information Novel Electrically-Conductive Porous PDMS/Carbon Nanofibre Composites for Deformable Strain-Sensors and Conductors Shuying Wu,, Jin Zhang, Raj B. Ladani, Anil R. Ravindran, Adrian
More informationOriel Shoshani. July 17, 2016 PERSONAL INFORMATION
July 17, 2016 Oriel Shoshani PERSONAL INFORMATION Date and place of birth: December 13, 1980, Israel Marital status: Married+3 Home address: 4060 Springer Way, East Lansing, MI 48823, USA. Telephone: +1-517-974-1199
More informationGraphene Fundamentals and Emergent Applications
Graphene Fundamentals and Emergent Applications Jamie H. Warner Department of Materials University of Oxford Oxford, UK Franziska Schaffel Department of Materials University of Oxford Oxford, UK Alicja
More informationFrom nanophysics research labs to cell phones. Dr. András Halbritter Department of Physics associate professor
From nanophysics research labs to cell phones Dr. András Halbritter Department of Physics associate professor Curriculum Vitae Birth: 1976. High-school graduation: 1994. Master degree: 1999. PhD: 2003.
More informationBioassay on a Robust and Stretchable Extreme Wetting. Substrate through Vacuum-Based Droplet Manipulation
Supporting Information for A Single-Droplet Multiplex Bioassay on a Robust and Stretchable Extreme Wetting Substrate through Vacuum-Based Droplet Manipulation Heetak Han, Jung Seung Lee, Hyunchul Kim,
More informationMicroscopy, topological states of matter, graphene and low dimensional materials, solid state realizations of quantum information processing.
Monica T. Allen CONTACT INFORMATION RESEARCH INTERESTS 476 Lomita Mall, Stanford University E-mail: mtallen@stanford.edu Stanford, CA 94305-4045 Web: http://web.stanford.edu/ mtallen Microscopy, topological
More informationKOROSH TORABI. Ph.D. Chemical Engineering, Purdue University, West Lafayette, IN Dec. 2011
KOROSH TORABI 2 7 2 5 C E N T R A L S T. A P T 2 S E V A N S T O N, I L 6 0 2 0 1 P H O N E ( 3 1 2 ) 3 3 9-0 6 6 5 E - M A I L : K O R O S H. T O R A B I @ N O R T H W E S T E R N. E D U W E B P A G E
More informationContents. Preface...xv List of Contributors...xvii
Preface...xv List of Contributors...xvii CHAPTER 1 Nanotechnology to Nanomanufacturing... 1 1.1 Introduction...1 1.2 Approaches to Nanotechnology...2 1.3 Transition from Nanotechnology to Nanomanufacturing...3
More informationA MEMS nanoplotter with high-density parallel dip-pen nanolithography probe arrays
INSTITUTE OF PHYSICS PUBLISHING Nanotechnology 13 (2002) 212 217 NANOTECHNOLOGY PII: S0957-4484(02)29674-9 A MEMS nanoplotter with high-density parallel dip-pen nanolithography probe arrays Ming Zhang
More informationDavid Burghoff Curriculum Vitae
David Burghoff Curriculum Vitae Personal Address 32 Vassar St., Room 26-455 166 5 th St., Apt. 2 Cambridge, MA 02139 Cambridge, MA 02141 (617) 253-2431 (314) 757-1625 burghoff@mit.edu www.mit.edu/~burghoff
More informationNanotechnology. Gavin Lawes Department of Physics and Astronomy
Nanotechnology Gavin Lawes Department of Physics and Astronomy Earth-Moon distance 4x10 8 m (courtesy NASA) Length scales (Part I) Person 2m Magnetic nanoparticle 5x10-9 m 10 10 m 10 5 m 1 m 10-5 m 10-10
More informationRevealing High Fidelity of Nanomolding Process by Extracting the Information from AFM Image with Systematic Artifacts
Revealing High Fidelity of Nanomolding Process by Extracting the Information from AFM Image with Systematic Artifacts Sajal Biring* Department of Electronics Engineering and Organic Electronics Research
More informationNANOCOMPOSITE THIN FILMS:
NANOCOMPOSITE THIN FILMS: Assembly, Characterizations, & Applications Chaoyang Jiang Department of Chemistry The University of South Dakota St. Louis, June 26, 2008 Forest Products &Nanocomposite P. Monteiro@UC
More informationLarge Scale Direct Synthesis of Graphene on Sapphire and Transfer-free Device Fabrication
Supplementary Information Large Scale Direct Synthesis of Graphene on Sapphire and Transfer-free Device Fabrication Hyun Jae Song a, Minhyeok Son a, Chibeom Park a, Hyunseob Lim a, Mark P. Levendorf b,
More informationNano Materials and Devices
Nano Materials and Devices Professor Michael Austin Platform Technologies Research Institute Nano Materials and Devices Program Aim: to develop an integrated capability in nanotechnology Design and modelling
More informationDesign and Analysis of Various Microcantilever Shapes for MEMS Based Sensing
ScieTech 014 Journal of Physics: Conference Series 495 (014) 01045 doi:10.1088/174-6596/495/1/01045 Design and Analysis of Various Microcantilever Shapes for MEMS Based Sensing H. F. Hawari, Y. Wahab,
More informationInstrumentation and Operation
Instrumentation and Operation 1 STM Instrumentation COMPONENTS sharp metal tip scanning system and control electronics feedback electronics (keeps tunneling current constant) image processing system data
More informationSuper Flexible, High-efficiency Perovskite Solar Cells Employing Graphene Electrodes: Toward Future Foldable Power Sources
Electronic Supplementary Material (ESI) for Energy & Environmental Science. This journal is The Royal Society of Chemistry 2016 Electronic Supplementary Information Super Flexible, High-efficiency Perovskite
More informationMutually-Actuated-Nano-Electromechanical (MA- NEM) Memory Switches for Scalability Improvement
JOURNAL OF SEMICONDUCTOR TECHNOLOGY AND SCIENCE, VOL.17, NO.2, APRIL, 2017 ISSN(Print) 1598-1657 https://doi.org/10.5573/jsts.2017.17.2.199 ISSN(Online) 2233-4866 Mutually-Actuated-Nano-Electromechanical
More informationObservation of Extreme Phase Transition Temperatures of Water Confined Inside Isolated Carbon Nanotubes
Observation of Extreme Phase Transition Temperatures of Water Confined Inside Isolated Carbon Nanotubes Kumar Varoon Agrawal, Steven Shimizu, Lee W. Drahushuk, Daniel Kilcoyne and Michael S. Strano Department
More informationScanning Tunneling Microscopy
Scanning Tunneling Microscopy References: 1. G. Binnig, H. Rohrer, C. Gerber, and Weibel, Phys. Rev. Lett. 49, 57 (1982); and ibid 50, 120 (1983). 2. J. Chen, Introduction to Scanning Tunneling Microscopy,
More informationLow Power Phase Change Memory via Block Copolymer Self-assembly Technology
Low Power Phase Change Memory via Block Copolymer Self-assembly Technology Beom Ho Mun 1, Woon Ik Park 1, You Yin 2, Byoung Kuk You 1, Jae Jin Yun 1, Kung Ho Kim 1, Yeon Sik Jung 1*, and Keon Jae Lee 1*
More informationCV Biddut K Sarker
Biddut K Sarker University of Central Florida, Nanoscience Technology Center and Department of Physics 12424 Research Pkwy Suite 400, Orlando, FL 32826 Email: bksarker@gmail.com; www.bksarker@weebly.com
More informationNanochannel-Assisted Perovskite Nanowires: Growth Mechanisms. to Photodetector Applications
Supplementary Information: Nanochannel-Assisted Perovskite Nanowires: Growth Mechanisms to Photodetector Applications Qitao Zhou, Jun Gyu Park, Riming Nie, Ashish Kumar Thokchom, Dogyeong Ha, Jing Pan,
More informationStandards for Nanotechnology Workforce Education
Standards for Nanotechnology Workforce Education Standards Development Organizations (SDOs) Global International Organization for Standardization International Electrotechnical Commission Regional European
More informationDevelopment of a nanostructural microwave probe based on GaAs
Microsyst Technol (2008) 14:1021 1025 DOI 10.1007/s00542-007-0484-0 TECHNICAL PAPER Development of a nanostructural microwave probe based on GaAs Y. Ju Æ T. Kobayashi Æ H. Soyama Received: 18 June 2007
More informationScanning Probe Microscopy. Amanda MacMillan, Emmy Gebremichael, & John Shamblin Chem 243: Instrumental Analysis Dr. Robert Corn March 10, 2010
Scanning Probe Microscopy Amanda MacMillan, Emmy Gebremichael, & John Shamblin Chem 243: Instrumental Analysis Dr. Robert Corn March 10, 2010 Scanning Probe Microscopy High-Resolution Surface Analysis
More informationSSNEMS Internal Report
E.3. Nanotube Reinforced Piezoelectric Polymeric Composites Subjected to Electro-Thermo- Mechanical Loadings Understanding the stress transfer between nanotube reinforcements and surrounding matrix is
More informationTransparent Stretchable Self-Powered Patchable. Sensor Platform with Ultrasensitive Recognition
Supporting Information Transparent Stretchable Self-Powered Patchable Sensor Platform with Ultrasensitive Recognition of Human Activities Byeong-Ung Hwang,, Ju-Hyuck Lee,, Tran Quang Trung,, Eun Roh, Do-Il
More information26.542: COLLOIDAL NANOSCIENCE & NANOSCALE ENGINEERING Fall 2013
26.542: COLLOIDAL NANOSCIENCE & NANOSCALE ENGINEERING Fall 2013 Classes: Thurs, 6-9 pm; Ball Hall Room 208 Professor: Dr. B. Budhlall Office: Ball Hall 203B, Phone: 978-934-3414 Email: Bridgette_Budhlall@uml.edu
More informationPrinting Silver Nanogrids on Glass: A Hands-on Investigation of Transparent Conductive Electrodes
Printing Silver Nanogrids on Glass: A Hands-on Investigation of Transparent Conductive Electrodes Silver Nanogrid/Nanowire Importance The next generation of optoelectronic devices requires transparent
More informationSupporting Infromation
Supporting Infromation Transparent and Flexible Self-Charging Power Film and Its Application in Sliding-Unlock System in Touchpad Technology Jianjun Luo 1,#, Wei Tang 1,#, Feng Ru Fan 1, Chaofeng Liu 1,
More informationModeling, Simulation and Optimization of the Mechanical Response of Micromechanical Silicon Cantilever: Application to Piezoresistive Force Sensor
Available online at www.sciencedirect.com ScienceDirect Physics Procedia 55 (2014 ) 348 355 Eight International Conference on Material Sciences (CSM8-ISM5) Modeling, Simulation and Optimization of the
More informationOutline Scanning Probe Microscope (SPM)
AFM Outline Scanning Probe Microscope (SPM) A family of microscopy forms where a sharp probe is scanned across a surface and some tip/sample interactions are monitored Scanning Tunneling Microscopy (STM)
More informationSeminars in Nanosystems - I
Seminars in Nanosystems - I Winter Semester 2011/2012 Dr. Emanuela Margapoti Emanuela.Margapoti@wsi.tum.de Dr. Gregor Koblmüller Gregor.Koblmueller@wsi.tum.de Seminar Room at ZNN 1 floor Topics of the
More informationPotential changes of the cross section for rectangular microchannel with different aspect ratios
Korean J. Chem. Eng., 24(1), 186-190 (2007) SHORT COMMUNICATION Potential changes of the cross section for rectangular microchannel with different aspect ratios Hyo Song Lee, Ki Ho Kim, Jae Keun Yu, Soon
More informationRadiative Heat Transfer at the Nanoscale. Pramod Reddy University of Michigan, Ann Arbor
Radiative Heat Transfer at the Nanoscale 40µm Pramod Reddy University of Michigan, Ann Arbor Acknowledgements Edgar Meyhofer Juan Carlos Cuevas Francisco Garcia Vidal B. Song K. Kim V. Fernandez J. Fiest
More informationNano-mechatronics. Presented by: György BudaváriSzabó (X0LY4M)
Nano-mechatronics Presented by: György BudaváriSzabó (X0LY4M) Nano-mechatronics Nano-mechatronics is currently used in broader spectra, ranging from basic applications in robotics, actuators, sensors,
More informationPerformance and Control of the Agilent Nano Indenter DCM
Performance and Control of the Agilent Nano Indenter DCM Application Note Introduction With new materials and material applications come new test challenges. As these new challenges emerge in materials
More informationGarett M. Leskowitz. S.B., Chemistry, Massachusetts Institute of Technology June 1988
Garett M. Leskowitz 2429 Pierce Hall 1790 West Arrow Route #202 Deparment of Chemistry Upland, CA 91786 University of California (909) 981-6709 Riverside, CA 92521 (909) 787-7365 garett@citrus.ucr.edu
More informationLarge-Area and Uniform Surface-Enhanced Raman. Saturation
Supporting Information Large-Area and Uniform Surface-Enhanced Raman Spectroscopy Substrate Optimized by Enhancement Saturation Daejong Yang 1, Hyunjun Cho 2, Sukmo Koo 1, Sagar R. Vaidyanathan 2, Kelly
More informationDevelopment and Characterization of High Frequency Bulk Mode Resonators
Excerpt from the Proceedings of the COMSOL Conference 008 Hannover Development and Characterization of High Frequency Bulk Mode Resonators Hossein Pakdast 1*, Zachary James Davis 1 1 DTU Nanotech, Technical
More informationPROCEEDINGS OF SPIE. Nanoparticle sorting in silicon waveguide arrays. H. T. Zhao, Y. Zhang, L. K. Chin, P. H. Yap, K. Wang, et al.
PROCEEDINGS OF SPIE SPIEDigitalLibrary.org/conference-proceedings-of-spie Nanoparticle sorting in silicon waveguide arrays H. T. Zhao, Y. Zhang, L. K. Chin, P. H. Yap, K. Wang, et al. H. T. Zhao, Y. Zhang,
More informationContents. Foreword by Darrell H. Reneker
Table of Foreword by Darrell H. Reneker Preface page xi xiii 1 Introduction 1 1.1 How big is a nanometer? 1 1.2 What is nanotechnology? 1 1.3 Historical development of nanotechnology 2 1.4 Classification
More information3.052 Nanomechanics of Materials and Biomaterials Thursday 02/08/06 Prof. C. Ortiz, MIT-DMSE I LECTURE 2 : THE FORCE TRANSDUCER
I LECTURE 2 : THE FORCE TRANSDUCER Outline : LAST TIME : WHAT IS NANOMECHANICS... 2 HOW CAN WE MEASURE SUCH TINY FORCES?... 3 EXAMPLE OF A FORCE TRANSDUCER... 4 Microfabricated cantilever beams with nanosized
More informationCarbon Nanotube Thin-Films & Nanoparticle Assembly
Nanodevices using Nanomaterials : Carbon Nanotube Thin-Films & Nanoparticle Assembly Seung-Beck Lee Division of Electronics and Computer Engineering & Department of Nanotechnology, Hanyang University,
More informationLecture 4 Scanning Probe Microscopy (SPM)
Lecture 4 Scanning Probe Microscopy (SPM) General components of SPM; Tip --- the probe; Cantilever --- the indicator of the tip; Tip-sample interaction --- the feedback system; Scanner --- piezoelectric
More informationNanotechnology where size matters
Nanotechnology where size matters J Emyr Macdonald Overview Ways of seeing very small things What is nanotechnology and why is it important? Building nanostructures What we can do with nanotechnology?
More information