He is currently the Deputy Director of Biomedical Technology Rese

He is currently the Deputy Director of Biomedical Technology Research Center of NTHU and Chairman of the ESS department.

He has written five book chapters, including ‘Micro droplet generators’ in MEMS Handbook (CRC) and ‘Technological aspects of protein microarrays and nanoarrays’ in Protein Microarrays (Jones and Bartlett), and he has published more than 80 SCI Journal papers and 240 conference technical papers in MEMS, bio-N/MEMS, and micro/nanofluidic-related fields. He has received 32 patents. FGT is a member of ASME, APS, and ACS. He has received several awards, including the Mr. Wu, Da-Yo Memorial Award from National Science Council, Taiwan (2005–2008), five best paper/poster awards (1991, 2003, 2004, 2005, and 2009), NTHU new faculty research award (2002), NTHU outstanding teaching award (2002), NTHU academic booster award (2001), and NSC research award (2000). Acknowledgements This work was supported selleckchem by grants from the National Science Council of Taiwan under the programs NSC102-2627-M-007-002, NSC100-2120-M-007-006, NSC 99-2120-M-007-009, NSC100-2627-M-007-013, and NSC 99-2627-M-007-002. Electronic supplementary material Additional file 1: f-d Curves, duration time, and schematic diagram. Figure S1. f-d curves SB202190 research buy obtained from a grounded metal surface before and after

the measurement of the electrostatic field. Figure S2. the duration time of the charged sTNP tip under N2condition. Figure S3. f-d curves obtained from sTNP tip under N2 condition. Figure S4. schematic diagram of differences between experimental result and Ansoft Maxwell simulation. (Difference = F ele measured by EXP − F ele simulated by Ansoft Maxwell). Selleck AZD1152 (PDF 271 KB) References 1. Martin Y, Williams CCHK, Wickramasinghe HK: Atomic force microscope-force mapping and profiling on a sub 100-A scale. J Appl Phys 1987, 61:4723–4729.CrossRef 2. Stern JE, Terris BD, Mamin HJ, Rugar D: Deposition and imaging of localized charge on insulator surfaces

using a force microscope. Appl Phys Lett 1988, 53:2717–2719.CrossRef 3. Terris BD, Sterna JE, Rugar D, Mamin HJ: Localized charge force microscopy. J Vac Sci Technol 1990, A8:374–377.CrossRef Chorioepithelioma 4. Berger R, Butt HJ, Retschke MB, Weber SAL: Electrical modes in scanning probe microscopy. Macromol Rapid Commun 2009, 30:1167–1178.CrossRef 5. Bonnell DA: Electrostatic and magnetic force microscopy. In Scanning Probe Microscopy and Spectroscopy. New York: Wiley; 2001:207–210. 6. Nonnenmacher M, O’Boyle MP, Wickramasinghe HK: Kelvin probe force microscopy. Appl Phys Lett 1991, 58:2921–2923.CrossRef 7. Palermo V, Palma M, Samori P: Electronic characterization of organic thin films by Kelvin probe force microscopy. Adv Mater 2006, 18:145–164.CrossRef 8. Jenke MG, Santschi C, Hoffmann P: Two-dimensional electrostatic force field measurements with simultaneous topography measurement on embedded interdigitated nanoelectrodes using a force distance curve based method. Appl Phys Lett 2008, 92:063113.CrossRef 9.

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