Publications

Books

  1.  M. R. Hornung, O. Brand, Micromachined Ultrasound-Based Proximity Sensors, Kluwer Academic Publishers, 1999, 120 pages.
  2. D. Lange, O. Brand, H. Baltes, CMOS Cantilever Sensor Systems – Atomic-Force Microscopy and Gas Sensing Applications, Springer, 2002, 158 pages.
  3. H. Baltes, O. Brand, G.K. Fedder, C. Hierold, J. Korvink, O. Tabata (eds.), Advanced Micro and Nanosystems, Volume 1: Enabling Technology for MEMS and Nanodevices, Wiley-VCH, 2004, 439 pages.
  4. J. Schwizer, M. Mayer, O. Brand, Force Sensors for Microelectronic Packaging Applications, Springer, 2004, 178 pages.
  5. O. Brand, G.K. Fedder (vol. eds.), Advanced Micro and Nanosystems, Volume 2: CMOS-MEMS, Wiley-VCH, 2005, 620 pages.
  6. H. Baltes, O. Brand, G.K. Fedder, C. Hierold, J. Korvink, O. Tabata (eds.), Advanced Micro and Nanosystems, Volume 3: Microengineering of Metals and Ceramics (Part I), Wiley-VCH, 2005, 392 pages.
  7. H. Baltes, O. Brand, G.K. Fedder, C. Hierold, J. Korvink, O. Tabata (eds.), Advanced Micro and Nanosystems, Volume 4: Microengineering of Metals and Ceramics (Part II), Wiley-VCH, 2005, 306 pages.
  8. O. Brand, G.K. Fedder, C. Hierold, J. Korvink, O. Tabata (eds.), Advanced Micro and Nanosystems, Volume 5: Micro Process Engineering, Wiley-VCH, 2006, 530 pages.
  9. O. Brand, G.K. Fedder, C. Hierold, J. Korvink, O. Tabata (eds.), Advanced Micro and Nanosystems, Volume 6: Reliability of MEMS, Wiley-VCH, 2007, 303 pages.
  10. O. Brand, G.K. Fedder, C. Hierold, J. Korvink, O. Tabata (eds.), Advanced Micro and Nanosystems, Volume 8: Carbon Nanotube Devices, Wiley-VCH, 2008, 360 pages.
  11. O. Brand, G.K. Fedder, C. Hierold, J. Korvink, O. Tabata (eds.), Advanced Micro and Nanosystems, Volume 7: LIGA and its Applications, Wiley-VCH, 2009, 440 pages.
  12. O. Brand, G.K. Fedder, C. Hierold, J. Korvink, O. Tabata (eds.), Advanced Micro and Nanosystems, Volume 9: Inkjet-Based Micromanufacturing, Wiley-VCH, 2012, 372 pages.
  13. O. Brand, G.K. Fedder, C. Hierold, J. Korvink, O. Tabata (eds.), Advanced Micro and Nanosystems, Volume 10: System-level Modeling of MEMS, Wiley-VCH, 2013, 562 pages.
  14. O. Brand, I. Dufour, S. Heinrich, F. Josse (volume eds.), Advanced Micro and Nanosystems, Volume 11: Resonant MEMS, Wiley-VCH, 512 pages, June 2015.
  15. O. Brand, G.K. Fedder, C. Hierold, J. Korvink, O. Tabata (series eds.), Advanced Micro and Nanosystems, Volume 12: Micro Energy Harvesting, Wiley-VCH, 490 pages, June 2015.
  16. O. Brand, G.K. Fedder, C. Hierold, J. Korvink, O. Tabata (series eds.), Advanced Micro and Nanosystems, Volume 13: Micro- and Nanomanipulation Tools, Wiley-VCH, 570 pages, September 2015.

Parts of Books

  1. O. Brand, H. Baltes, “Micromachined resonant sensors: an overview,” in: Sensors Update, H. Baltes, W. Göpel, J. Hesse (eds.), vol. 4, Wiley-VCH, pp. 3-51, 1998.
  2. C. Hagleitner, A. Hierlemann, O. Brand, H. Baltes, “CMOS single chip gas detection systems – Part I,” in: Sensors Update, H. Baltes, J. Korvink, G. Fedder (eds.), vol. 11, Wiley-VCH, pp. 101-155, 2002.
  3. O. Brand, “Fabrication Technology,” in: Advanced Micro and Nanosystems, O. Brand, G.K. Fedder (volume eds.), vol. 2, Wiley-VCH, pp. 1-68, 2005.
  4. O. Brand. “Packaging,” in: Comprehensive Microsystems, Y. Gianchandani, O. Tabata, H. Zappe (volume eds.), Elsevier, 2008, pp. 431-463.
  5. L.A. Beardslee, O. Brand, F. Josse “Resonant Chemical Sensors,” in: Advanced Micro and Nanosystems, O. Brand, I. Dufour, S.M. Heinrich, F. Josse (volume eds.), vol. 11, Wiley-VCH, 2015, pp. 355-390.
  6. O. Brand, S. Pourkamali, “Electrothermal Excitation of Resonant MEMS,” in: Advanced Micro and Nanosystems, O. Brand, I. Dufour, S.M. Heinrich, F. Josse (volume eds.), vol. 11, Wiley-VCH, 2015, pp. 173-201.

Journal Publications

(Graduate students supervised at Georgia Tech are highlighted in bold)

  1. O. Brand, H. v. Löhneysen, R. Blachnik, “Dependence of low-energy excitations on average coordination number in amorphous AsxSe1-x,” Physica B, vol. 169, pp. 567-568, 1991.
  2. O. Brand, H. v. Löhneysen, “Rigidity percolation and low-energy excitations in amorphous AsxSe1-x,” Europhysics Letters, vol. 16, pp. 455-460, 1991.
  3. H. Baltes, D. Moser, R. Lenggenhager, O. Brand, “Thermal microtransducers by CMOS technology combined with micromachining,” Microelectronic Engineering, vol. 15, pp. 419-422, 1991.
  4. O. Brand, H. Baltes, U. Baldenweg, “Thermally excited silicon oxide bridge resonators in CMOS technology,” J. Micromech. Microeng., vol. 2, pp. 208-210, 1992.
  5. T. Boltshauser, M. Schönholzer, O. Brand, H. Baltes, “Resonant humidity sensors by industrial CMOS technology combined with post-processing,” J. Micromech. Microeng., vol. 2, pp. 205-207, 1992.
  6. D. A. Parshin, X. Liu, O. Brand, H. v. Löhneysen, “Analysis of low-temperature specific heat of amorphous AsxSe1-x within the soft potential model,” Zeitschrift für Physik B, vol. B-93, pp. 57-62, 1993.
  7. O. Brand, H. Baltes, U. Baldenweg, “Thermally excited silicon oxide beam and bridge resonators in CMOS technology,” IEEE Transactions on Electron Devices, vol. ED-40, pp. 1745-1753, 1993.
  8. O. Paul, O. Brand, R. Lenggenhager, H. Baltes, “Vacuum gauging with CMOS microsensors,” J. Vacuum Science Technology A, vol. 13, pp. 503-508, 1995.
  9. O. Brand, M. Hornung, H. Baltes, C. Hafner, “Ultrasound barrier microsystem for object detection based on micromachined transducer elements,” IEEE J. Microelectromechanical Systems, vol. 6, pp. 151-160, 1997.
  10. W. P. Taylor, O. Brand, M. G. Allen, “Fully integrated magnetically actuated micromachined relays,” IEEE J. Microelectromechanical Systems, vol. 7, pp. 181-191, 1998.
  11. H. Baltes, O. Paul, O. Brand (invited review), “Micromachined thermally-based CMOS microsensors,” Proceedings IEEE, vol. 86, pp. 1660-1678, 1998.
  12. L. Lagorce, O. Brand, M. G. Allen, “Magnetic microactuators based on polymer magnets,” IEEE J. Microelectromechanical Systems, vol. 8, pp. 2-9, 1999.
  13. H. Baltes, O. Brand (invited paper), “Progress in CMOS integrated measurement systems,” IEEE Aerospace and Electronic Systems Magazine, vol. 14, no. 10, pp. 29-34, 1999.
  14. H. Baltes, O. Brand, M. Waelti (invited paper), “Packaging of CMOS MEMS,” Microelectronics Reliability, vol. 40, pp. 1255-1262, 2000.
  15. T. Müller, M. Brandl, O. Brand, H. Baltes, “An industrial CMOS process family adapted for the fabrication of smart silicon sensors,” Sensors and Actuators A, vol. 84, pp. 126-133, 2000.
  16. T. Müller, G. Kissinger, A. C. Benkitsch, O. Brand, H. Baltes, “Assessment of silicon wafer material for the fabrication of integrated circuit sensors,” J. Electrochemical Society, vol. 147, pp. 1604-1611, 2000.
  17. T. Akiyama, U. Staufer, N.F. de Rooij, D. Lange, C. Hagleitner, O. Brand, H. Baltes, A. Tonin, H.R. Hidber, “Integrated AFM array probe with MOSFET stress-sensor, thermal bimorph actuator, and on-chip CMOS electronics,” J. Vacuum Science Technology B, vol. 18, pp. 2669-2675, 2000.
  18. H. Baltes, O. Brand, C. Hagleitner, “CMOS integrated chemical microsensors and their circuitry,” Transactions IEE Japan, vol. 120-E, pp. 185-189, 2000.
  19. A. Hierlemann, A. Koll, D. Lange, C. Hagleitner, N. Kerness, O. Brand, H. Baltes, “Application-specific sensor system based on CMOS chemical microsensors,” Sensors and Actuators B, vol. 70, pp. 2-11, 2000.
  20. A. Schaufelbühl, N. Schneeberger, U. Münch, M. Waelti, O. Paul, O. Brand, H. Baltes, C. Menolfi, Q. Huang, M. Loepfe, E. Doering, “Uncooled low-cost thermal imager based on micromachined CMOS integrated sensor array,” IEEE J. Microelectromechanical Systems, vol. 10, pp. 503-510, 2001.
  21. C. Hagleitner, A. Hierlemann, D. Lange, A. Kummer, N. Kerness, O. Brand, H. Baltes, “Smart single-chip gas sensor microsystem,” Nature, vol. 414, pp. 293-296, 2001.
  22. H. Baltes, O. Brand, “CMOS-based microsensors and packaging,” Sensors and Actuators A, vol. 92, pp. 1-9, 2001.
  23. O. Brand, H. Baltes, “Microsensor Packaging,” Microsystem Technologies, vol. 7, pp. 205-208, 2002.
  24. M. Ono, D. Lange, O. Brand, C. Hagleitner, H. Baltes, “A complementary-metal-oxide-semiconductor-field-effect-transistor-compatible atomic force microscopy tip fabrication process and integrated atomic force microscopy cantilevers fabricated with this process,” Ultramicroscopy, vol. 91, pp. 9-20, 2002.
  25. G. J. Mohr, G. Zhylyak, T. Nezel, U.E. Spichiger-Keller, N. Kerness, O. Brand, H. Baltes, U.-W. Grummt, “Using reactands in CMOS-based calorimetric sensors: new functional materials for electronic noses,” Analytical Sciences, vol. 18, pp. 109-111, 2002.
  26. D. Lange, C. Hagleitner, A. Hierlemann, O. Brand, H. Baltes, “Complementary metal oxide semiconductor cantilever arrays on a single chip: mass-sensitive detection of volatile organic compounds,” Analytical Chemistry, vol. 74, pp. 3084-3095, 2002.
  27. C. Hagleitner, D. Lange, A. Hierlemann, O. Brand, H. Baltes, “CMOS single-chip gas detection system comprising capacitive, calorimetric and mass-sensitive microsensors,” IEEE J. Solid-State Circuits, vol. 37, pp. 1867-1878, 2002.
  28. D. Lange, C. Hagleitner, C. Herzog, O. Brand, H. Baltes, “Electromagnetic actuation and MOS-transistor sensing for CMOS-integrated micromechanical resonators,” Sensors and Actuators A, vol. 103, pp. 150-155, 2003.
  29. A. Hierlemann, O. Brand, C. Hagleitner, H. Baltes, (invited review) “Microfabrication techniques for chemical/biosensors,” Proc. IEEE, vol. 91, pp. 839-863, 2003.
  30. D. Kercher, J.B. Lee, O. Brand, A. Glezer, M. Allen, and A. Glezer, “Microjet cooling devices for thermal management of electronics,” IEEE Trans. Comp. and Packaging Techn., vol. 26, pp. 359-366, 2003.
  31. T. Volden, M. Zimmermann, D. Lange, O. Brand, H. Baltes, “Dynamics of CMOS-based thermally actuated cantilever arrays for force microscopy,” Sensors and Actuators A, vol. 115, pp. 516-522, 2004.
  32. S. Hafizovic, D. Barrettino, T. Volden, J. Sedivy, K.-U. Kirstein, O. Brand, A. Hierlemann, “Single-chip mechatronic microsystem for surface imaging and force response studies,” Proc. National Academy of Sciences (PNAS), vol. 49, pp. 17011-17015, 2004.
  33. O. Brand (invited review article), “Microsensor integration into systems-on-chip,” Proc. IEEE (Special Issue on “Systems-on-a-Chip: Integration and Packaging”), vol. 94, pp. 1160-1176, 2006.
  34. D. Sunier, T. Vancura, Y. Li, K.-U. Kirstein, H. Baltes, O. Brand, “Resonant magnetic field sensor with frequency output,” IEEE J. Microelectromechanical Systems, vol. 15, pp. 1098-1107, 2006.
  35. O. Brand, J.H. Seo, “CMOS-based microsensors,” ECS Transactions, vol. 3(10), pp. 447-461, 2006.
  36. N. Naik, C. Courcimault, H. Hunter, J. Berg, J. Lee, K. Naeli, T. Wright, M. Allen, O. Brand, A. Glezer, W. King, “Microfluidics for generation and characterization of liquid and gaseous micro- and nanojets,” Sensors and Actuators A, vol. 134, pp. 119-127, 2007.
  37. J. Lee, K. Naeli, H. Hunter, J. Berg, T. Wright, C. Courcimault, N. Naik, M. Allen, O. Brand, A. Glezer, W.P. King, “Characterization of liquid and gaseous micro- and nanojets using microcantilever sensors,” Sensors and Actuators A, vol. 134, pp. 128-139, 2007.
  38. L. Betancor, H.R. Luckarift, J.H. Seo, O. Brand, J.C. Spain, “Three-dimensional immobilization of beta-galactosidase on a silicon surface,” Biotechnology and Bioengineering, vol. 99, pp. 261-267, 2008.
  39. J. H. Seo, O. Brand, “High Q-factor in-plane mode resonant microsensor for gaseous/liquid environment,” IEEE J. Microelectromechanical Systems, vol. 17, pp. 483-493, 2008.
  40. M. Zimmermann, T. Volden, K.-U. Kirstein, S. Hafizovic, J. Lichtenberg, O. Brand, A. Hierlemann, “A CMOS-based integrated-system architecture for a static cantilever array,” Sensors and Actuators B, vol. 131, pp. 254-264, 2008.
  41. J. H. Seo, K.S. Demirci, A. Byun, S. Truax, O. Brand, “Temperature compensation method for resonant microsensors based on a controlled stiffness modulation,” Journal of Applied Physics, vol. 104, 2008, 014911-1-9.
  42. J. M. Cesaretti, W.P. Taylor, G. Monreal, O. Brand, “Effect of stress due to plastic package moisture absorption in Hall sensors,” IEEE Trans. Magnetics, vol. 45, no. 10, pp. 4482-4485, 2009.
  43. K. Naeli, O. Brand, “An iterative curve fitting method for accurate calculation of quality factors in resonators,” Rev. Sci. Instr., vol. 80, pp. 045105-1 – 045105-6, 2009.
  44. K. Naeli, O. Brand, “Cancellation of environmental effects in resonant mass sensors based on resonance mode and effective mass,” Rev. Sci. Instr., vol. 80, pp. 063903-1 – 063903-8, 2009.
  45. K. Naeli, O. Brand, “Dimensional considerations in achieving large quality factors for silicon resonant cantilevers in air,” J. Appl. Phys., vol. 105, pp. 014908-1 – 014908-10, 2009.
  46. L. A. Beardslee, A.M. Addous, S. Heinrich, F. Josse, I. Dufour, O. Brand, “Thermal excitation and piezoresistive detection of cantilever in-plane resonance modes for sensing applications,” IEEE Journal of Microelectromechanical Systems, vol. 19, 2010, pp. 1015-1017.
  47. L. A. Beardslee, K.S. Demirci, Y. Luzinova, B. Mizaikoff, S.M. Heinrich, F. Josse, O. Brand, “Liquid-phase chemical sensing using lateral mode resonant cantilevers,” Analytical Chemistry, vol. 82, 2010, pp. 7542-7549.
  48. S. B. Truax, K.S. Demirci, L.A. Beardslee, Y. Luzinova, A. Hierlemann, B. Mizaikoff, O. Brand, “Mass-sensitive detection of gas-phase volatile organics using disk microresonators,” Analytical Chemistry, vol. 83, pp. 3305-3311, 2011.
  49. I. Dufour, F. Josse, S.M. Heinrich, C. Lucat, C. Ayela, F. Menil, O. Brand, “Unconventional uses of microcantilevers as chemical sensors in gas and liquid media,” Sensors and Actuators B, vol. 170, pp. 115-121, 2012.
  50. C. Russell, F. Josse, S.M. Heinrich, O. Brand, I. Dufour, “Characteristics of laterally vibrating resonant microcantilevers in viscous liquid media,” J. Applied Physics, vol. 111, pp. 014907-1-14, 2012.
  51. L. A. Beardslee, F. Josse, S.M. Heinrich, I. Dufour, O. Brand, “Geometrical considerations for the design of liquid-phase biochemical sensors unsing a cantilever’s fundamental in-plane mode,” Sensors and Actuators B, vol. 164, pp. 7-14, 2012.
  52. C. A. Wick, J.-J. Su, J.H. McClellan, O. Brand, P.T. Bhatti, A.L. Buice, A.E. Stillman, X. Tang, S. Tridandapani, “A system for seismocardiography-based identification of quiescent heart phases: implications for cardiac imaging,” IEEE Trans. Information Technology in Biomedicine, vol. 16, pp. 869-877, 2012.
  53. K. S. Demirci, L.A. Beardslee, S. Truax, J.-J. Su, O. Brand, “Integrated silicon-based chemical microsystem for portable sensing applications,” Sensors and Actuators B, vol. 180, pp. 50-59, 2013.
  54. J. A. Schultz, S.M. Heinrich, F. Josse, N.J. Nigro, I. Dufour, L.A. Beardslee, O. Brand, “Timoshenko beam effects in lateral-mode microcantilevers-based sensors in liquids,” Micro & Nano Letters, vol. 8, pp. 762-765, 2013.
  55. I. Dufour, E. Lemaire, B. Caillard, H. Debeda, C. Lucat, S.M. Heinrich, F. Josse, O. Brand, “Effect of hydrodynamic force on microcantilevers vibrations: Applications to liquid-phase chemical sensing,” Sensors and Actuators B, vol. 192, pp. 664-672, 2014.
  56. K. O. Zamuruyev, H.K. Bardaweel, C.J. Carron, N.J. Kenyon, O. Brand, J.P. Delplanque, C.E. Davis, “Continuous droplet removal upon dropwise condensation of humid air on a hydrophobic micropatterned surface,” Langmuir, vol. 30, pp. 10133-10142, 2014.
  57. M. S. Sotoudegan, S.M. Heinrich, F. Josse, N.J. Nigro, I. Dufour, O. Brand, “Analytical modeling of a novel high-Q disk resonator for liquid-phase applications,” IEEE J Microelectromechanical Systems, vol. 24, pp. 38-49, 2015.
  58. J. A. Schultz, S.M. Heinrich, F. Josse, I. Dufour, N.J. Nigro, L.A. Beardslee, O. Brand, “Lateral-mode vibration of microcantilevers-based sensors in viscous fluids using Timoshenko beam theory,” IEEE J Microelectromechanical Systems, vol. 24, pp. 848-860, 2015.
  59. J.-J. Su, K.S. Demirci, O. Brand, “A low-leakage body-guarded analog switch in 0.35-µm BiCMOS and its applications in low-speed switched-capacitor circuits,” IEEE Transactions on Circuits and Systems, vol. 62, pp. 947-951, 2015.
  60. M. Kim, H. Alrowais, S. Pavlidis, O. Brand, “Size-scalable and high-density liquid-metal-based soft electronic passive components and circuits using soft lithography,” Advanced Functional Materials, vol. 27, pp. 1604466 (11 pages), 2017.

Conference Proceedings

(Graduate students supervised at Georgia Tech are highlighted in bold)

  1. D. Moser, O. Brand, H. Baltes, “A CMOS compatible thermally excited oxide beam resonator with aluminum mirror,” in Transducers ‘91 Digest of Technical Papers, IEEE, 1991, pp. 547-550.
  2. H. Baltes, D. Moser, R. Lenggenhager, O. Brand, G. Wachutka, “Thermomechanical microtransducers by CMOS technology combined with micromachining,” in Micro System Technologies ‘91, ed. by R. Krahn and H. Reichl, VDE, 1991, pp. 98-103.
  3. H. Baltes, D. Moser, R. Lenggenhager, O. Brand, D. Jaeggi, “Thermomechanical microtransducers by CMOS and micromachining,” in Micromechanical Sensors, Actuators, and Systems, DSC-Vol. 32, The American Society of Mechanical Engineers, 1991, pp. 61-75.
  4. H. Baltes, D. Moser, T. Boltshauser, R. Lenggenhager, O. Brand, D. Jaeggi, “Microtransducers by CMOS and micromachining,” in 4th International Forum on ASIC and Transducer Technology (ASICT 91), Proceedings, ed. by W. Sansen, Katholieke Universiteit Leuven, Belgium, 1991, pp. 71-87.
  5. O.  Brand, D. Moser, H. Baltes, “Thermally excited silicon oxide resonators in CMOS technology,” in The Electrochemical Society, 181th Meeting Program, Abstract No. 605 MIC, J. Electrochem. Soc., vol. 139, pp. 232 C, 1992.
  6. H. Baltes, T. Boltshauser, O. Brand, R. Lenggenhager, D. Jaeggi, “Silicon microsensors and microstructures,” in 1992 IEEE International Symposium on Circuits and Systems Proceedings, IEEE, 1992, pp. 1820-1823.
  7. O. Brand, H. Baltes, U. Baldenweg, “Membrane resonators in bipolar and CMOS IC technology,” in Transducers ‘93 Digest of Technical Papers, IEE Japan, 1993, pp. 646-649.
  8. O. Brand, R. Lenggenhager, H. Baltes, “Influence of air pressure on resonating and thermoelectric microstructures realized with standard IC technologies,” in International Electron Device Meeting ‘93 (IEDM ‘93), Technical Digest, IEEE, 1993, pp. 195-198.
  9. O. Brand, H. Baltes, U. Baldenweg, “Ultrasound transducer using membrane resonators realized with bipolar IC technology,” in Micro Electro Mechanical Systems ‘94 (MEMS ‘94) Proceedings, IEEE, 1994, pp. 33-38.
  10. H. Baltes, O. Brand, J. G. Korvink, R. Lenggenhager, O. Paul, “IMEMS – integrated micro electro mechanical systems by VLSI and micromachining,” in ESSDERC 94 Proc. 24th European Solid State Device Research Conf., ed. by C. Hill, P. Ashburn, Editions Frontières, Gif-sur-Yvettes, pp. 273-280, 1994.
  11. M. Hornung, R. Frey, O. Brand, H. Baltes, C. Hafner, “Ultrasound barrier based on packaged micromachined membrane resonators,” in Proc. Micro Electro Mechanical Systems ‘95 (MEMS ‘95), IEEE, 1995, pp. 334-339.
  12. C. Kuratli, Q. Huang, O. Brand, H. Baltes, “A self-calibrating barrier-detector microsystem in standard silicon circuit technology,” in Proceedings of the IEEE International Symposium on Industrial Electronics Vol. 2/2, IEEE, 1995, pp. 867-871.
  13. M. Hornung, O. Brand, H. Baltes, “Optimization of micromachined ultrasound transducer by finite element simulation,” in Transducers ‘95 Digest of Technical Papers Vol. 2, 1995, pp. 620-623.
  14. M. D. Baker, O. Brand, M. G. Allen, G. S. May, “A micromachined sensor for in-situ monitoring of plasma etching,” in 1996 IEEE 54th Annual Device Research Conference, IEEE, 1996, pp. 120-121.
  15. M. D. Baker, O. Brand, M. G. Allen, G. S. May, “A micromachined sensor for in-situ monitoring of wafer state in plasma etching,” in Proc. SPIE, vol. 2876, pp. 98-106, 1996.
  16. L. Lagorce, D. Kercher, J. English, O. Brand, A. Glezer, M. Allen, “Batch-fabricated microjet coolers for electronic components,” in Proc. 1997 Int. Symp. Microelectronics (ISHM ‘97), 1997, pp. 494-499.
  17. M. Hornung, O. Brand, O. Paul, H. Baltes, “Ultrasound transducer for distance measurement,” in Transducers ‘97 Digest of Technical Papers, 1997, pp. 441-444.
  18. O. Brand, J. M. English, S. A. Bidstrup, M. G. Allen, “Micromachined viscosity sensor for real-time polymerization monitoring,” in Transducers ‘97 Digest of Technical Papers, 1997, pp. 121-124.
  19. A. Koll, S. Kawahito, F. Mayer, C. Hagleitner, D. Scheiwiller, O. Brand, H. Baltes, “Flip-chip packaged CMOS chemical microsystem for detection of volatile organic compounds,” in Proc. SPIE, vol. 3328, pp. 223-232, 1998.
  20. T. Müller, T. Feichtinger, G. Breitenbach, M. Brandl, O. Brand, H. Baltes, “Industrial fabrication method for arbitrarily shaped silicon n-well micromechanical structures,” in Micro Electro Mechanical Systems ‘98 (MEMS ‘98), IEEE, 1998, pp. 240-245.
  21. S. Koller, V. Ziebart, O. Paul, O. Brand, H. Baltes, P. M. Sarro, M. J. Vellekoop, “Determination of mechanical material properties of piezoelectric ZnO films,” in Proc. SPIE, vol. 3328, pp. 102-109, 1998.
  22. T. Müller, T. Feichtinger, B. Fankhauser, A. C. Benkitsch, O. Brand, H. Baltes, “Surface quality of anisotropically etched grooves in CMOS silicon wafers with intrinsic gettering – the role of the initial oxygen content,” in Proc. Micromechanics Europe 1998 (MME ‘98), 1998, pp. 59-62.
  23. M. Hornung, O. Brand, O. Paul, H. Baltes, C. Kuratli, Q. Huang, “Micromachined acoustic Fabry-Perot system for distance measurement,” in Micro Electro Mechanical Systems ‘98 (MEMS ‘98), IEEE, 1998, pp. 643-648.
  24. M. Hornung, O. Brand, O. Paul, H. Baltes, “Long-term stability of membrane transducers for proximity sensing,” in Proc. SPIE, vol. 3514, pp. 251-259, 1998.
  25. D. Lange, A. Koll, O. Brand, H. Baltes, “CMOS chemical microsensors based on resonant cantilever beams,” in Proc. SPIE, vol. 3328, pp. 233-243, 1998.
  26. H. Baltes, O. Brand, O. Paul (keynote address), “CMOS MEMS technology and CAD: the case of thermal microtransducers,” in Proc. SPIE, vol. 3328, pp. 2-12, 1998.
  27. H. Baltes, O. Brand, A. Koll, “Wind, sound, smell, and intrusion detected by micromachined thermal CMOS sensors,” in Proc. Micro Structure Workshop 1998 (MSW ‘98), Uppsala, Sweden, 1998, pp. 2.1-2.8.
  28. O. Brand, M. Hornung, D. Lange, H. Baltes (invited paper), “CMOS resonant microsensors,” in Proc. SPIE, vol. 3514, pp. 238-250, 1998.
  29. O. Brand, H. Baltes (invited paper), “MEMS using CMOS process technology,” in Proc. 2nd SEMI Microsystem/MEMS Seminar, SEMICON Japan, 1998, pp. 115-123.
  30. T. Müller, G. Kissinger, A.C. Benkitsch, O. Brand, H. Baltes, “Defect related problems with the on-chip integration of sensors into CMOS devices,” in Proc. ECS Seattle Meeting, vol. 99-1, 1999, pp. 342-353.
  31. D. Lange, T. Akiyama, C. Hagleitner, A. Tonin, H. R. Hidber, P. Niedermann, U. Staufer, N. F. de Rooij, O. Brand, H. Baltes, “Parallel scanning AFM with on-chip circuitry in CMOS technology,” in Micro Electro Mechanical Systems ‘99 (MEMS ‘99), IEEE, 1999, pp. 447-452.
  32. T. Akiyama, D. Lange, C. Hagleitner, A. Tonin, O. Brand, H. Baltes, U. Staufer, N.F. de Rooij, “Active and self-detecting cantilever with on-chip CMOS electronics for scanning force microscopy,” in Transducers 99 Digest of Technical Papers, 1999, pp. 1848-1851.
  33. S. Koller, O. Brand, P.M. Sarro, M.J. Vellekoop, H. Baltes, “Piezoelectric ZnO membrane resonators for liquid property sensing,” in Proc. Eurosensors, 1999, pp. 341-344.
  34. S Koller, O. Brand, H. Baltes, B. Jakoby, P.M. Sarro, M. Vellekoop, “Lamb wave sensor with tensile ZnO for liquid property sensing,” in Transducers 99 Digest of Technical Papers, 1999, pp. 1512-1515.
  35. A. Koll, A. Kummer, O. Brand, H. Baltes, “Discrimination of volatile organic compounds using CMOS capacitive chemical microsensors with thickness adjusted polymer coating,” in Proc. SPIE, vol. 3673, pp. 308-317, 1999.
  36. A. Koll, A. Schaufelbühl, N. Schneeberger, U. Münch, O. Brand, H. Baltes, “Micromachined CMOS calorimetric chemical sensor with on-chip low noise amplifier,” in Micro Electro Mechanical Systems ‘99 (MEMS ‘99), IEEE, 1999, pp. 547-551.
  37. C. Hagleitner, A. Koll, R. Vogt, O. Brand, H. Baltes, “CMOS capacitive chemical microsystem with active temperature control for discrimination of organic vapors,” in Transducers 99 Digest of Technical Papers, 1999, pp. 1012-1015.
  38. D. Lange, C. Hagleitner, O. Brand, H. Baltes, “CMOS resonant beam gas sensor with integrated preamplifier,” in Transducers 99 Digest of Technical Papers, 1999, pp. 1020-1023.
  39. A. Hierlemann, A. Koll, D. Lange, C. Hagleitner, N. Kerness, O. Brand, R. Vogt, H. Baltes, “CMOS based chemical microsensors: Components of a micronose system,” in Proc. SPIE, vol. 3857, pp. 158-169, 1999.
  40. H. Baltes, O. Brand, C. Hagleitner, A. Hierlemann, N. Kerness, A. Koll, D. Lange, R. Vogt (invited paper), “CMOS integrated chemical sensors for application-specific micronoses,” in Proc. ISOEN, 1999, pp. 95-98.
  41. H. Baltes, O. Brand (plenary invited paper), “CMOS integrated chemical microsensors and the electronic nose,” in Proc. ESSDERC 99, 1999, pp. 29-37.
  42. H. Baltes, O. Brand (keynote address), “CMOS integrated microsystems and nanosystems,” in Proc. SPIE, vol. 3673, pp. 2-10, 1999.
  43. M. Wälti, N. Schneeberger, O. Brand, H. Baltes, “Fluxless microjoining by Au-In-Ni isothermal solidification,” (Graduate Student Silver Award) in Materials Science of Microelectromechanical Systems (MEMS) Devices II, M.P. de Boer, A.H. Heuer, S.J. Jacobs, E. Peeters (eds.), Proc. MRS, vol. 605, pp. 183-188, 2000.
  44. U. Munch, O. Brand, H. Baltes, M. Bossel, “Metal film protection of CMOS wafers against KOH,” in Micro Electro Mechanical Systems 2000 (MEMS 2000), IEEE, 2000, pp. 608-613.
  45. K. Kerness, A. Koll, A. Schaufelbühl, C. Hagleitner, A. Hierlemann, O. Brand, H. Baltes, “N-well based CMOS calorimetric chemical sensors,” in Micro Electro Mechanical Systems 2000 (MEMS 2000), IEEE, 2000, pp. 96-101.
  46. H. Baltes, O. Brand (plenary invited paper), “CMOS-based microsensors,” in Proc. Eurosensors 2000, 2000, pp. 1-8.
  47. J. Schwizer, M. Mayer, O. Brand, H. Baltes, “In-situ ultrasonic stress microsensor for second bond characterization,” in Proc. IMAPS 2001, 2001, pp. 338-343.
  48. M. Waelti, A. Schaufelbühl, O. Brand, H. Baltes, “Plastic BGA package and direct filter attachment for CMOS thermal imagers,” in Transducers 2001, Digest of Technical Papers, 2001, pp. 198-201.
  49. J. Schwizer, M. Mayer, O. Brand, H. Baltes, “Analysis of ultrasonic wire bonding by in-situ piezoresistive microsensors,” in Transducers 2001, Digest of Technical Papers, 2001, pp. 1426-1429.
  50. D. Lange, M. Zimmermann, C. Hagleitner, O. Brand, H. Baltes, “CMOS 10-cantilever array for constant-force parallel scanning AFM,” in Transducers 2001, Digest of Technical Papers, 2001, pp. 1074-1077.
  51. A. Schaufelbühl, U. Münch, C. Menolfi, O. Brand, H. Baltes, Q. Huang, “256-pixel CMOS-integrated thermoelectric infrared sensor array,” in Micro Electro Mechanical Systems 2001 (MEMS 2001), IEEE, 2001, pp. 200-203.
  52. D. Lange, C. Hagleitner, O. Brand, H. Baltes, “CMOS resonant beam gas sensing system with on-chip self excitation,” in Micro Electro Mechanical Systems 2001 (MEMS 2001), IEEE, 2001, pp. 547-552.
  53. C. Hagleitner, D. Lange, O. Brand, A. Hierlemann, and H. Baltes, “A single-chip CMOS resonant beam gas sensor,” in 2001 IEEE International Solid State Circuits Conference, Digest of Technical Papers, 2001, pp. 246-247.
  54. W. H. Song, C. Hagleitner, A. Hierlemann, O. Brand, H. Baltes, “Multi flip-chip module for chemical microsystems,” in Proc. IEEE 4th Int. Workshop on Area Array Packaging Technologies, 2002, pp. 4.5.1-4.5.5.
  55. J. Schwizer, Q. Füglistaller, M. Mayer, M. Althaus, O. Brand, H. Baltes, “MEMS system with multiplexer for in situ and real-time wire bonding diagnosis,” in Proc. SEMICON, 2002, pp. 163-169.
  56. D. Lange, C. Herzog, C. Hagleitner, O. Brand, H. Baltes, “Magnetic actuation and MOS-transistor sensing for CMOS-integrated resonators,” in Micro Electro Mechanical Systems 2002 (MEMS 2002), IEEE, 2002, pp. 304-307.
  57. C. Hagleitner, D. Lange, N. Kerness, A. Hierlemann, O. Brand, H. Baltes, “A gas detection system on a single CMOS chip comprising capacitive calorimetric, and mass-sensitive microsensors,” in 2002 IEEE International Solid State Circuits Conference, Digest of Technical Papers, 2002, pp. 430-431.
  58. H. Baltes, O. Brand, A. Hierlemann, D. Lange, C. Hagleitner (invited paper), “CMOS MEMS – Presence and Future,” in Micro Electro Mechanical Systems 2002 (MEMS 2002), IEEE, 2002, pp. 459-466.
  59. C. Hagleitner, D. Lange, N. Kerness, A. Kummer, W.H. Song, A. Hierlemann, O. Brand, H. Baltes, “CMOS single-chip multisensor gas detection system,” in Micro Electro Mechanical Systems 2002 (MEMS 2002), IEEE, 2002, pp. 244-247.
  60. T. Salo, T. Vancura, O. Brand, H. Baltes, “CMOS-based sealed membranes for medical tactile sensor arrays,” in Proc. Micro Electro Mechanical Systems 2003 (MEMS 2003), IEEE, 2003, pp. 590-593.
  61. C. Vancura, M. Rüegg, Y. Li, D. Lange, C. Hagleitner, O. Brand, A. Hierlemann, H. Baltes, “Magnetically actuated CMOS resonant cantilever gas sensor for volatile organic compounds,” in Transducers 2003, Digest of Technical Papers, 2003, pp. 1355-1358.
  62. R. Sunier, S. Taschini, O. Brand, T. Vancura, H. Baltes, “Quasi-analytical study of offset voltage due to piezoresistive effect in vertical Hall devices by mapping techniques,” in Transducers 2003, Digest of Technical Papers, 2003, pp. 1582-1585.
  63. J. Schwizer, W.H. Song, M. Mayer, O. Brand, H. Baltes, “Packaging test chip for flip-chip and wire bonding process characterization,” in Transducers 2003, Digest of Technical Papers, 2003, pp. 440-443.
  64. C. Hagleitner, D. Barrettino, A. Hierlemann, O. Brand, H. Baltes, “Interface circuitry for CMOS-based monolithic gas sensor arrays,” in Proceedings of the 2003 International Symposium on Circuits and Systems (ISCAS ’03), vol. 3, 2003, pp. 542-545.
  65. Y. Li, C. Vancura, C. Hagleitner, J. Lichtenberg, O. Brand, H. Baltes, “Very high Q-factor in water achieved by monolithic, resonant cantilever sensor with fully integrated feedback,” in Proc. IEEE Sensors Conference, 2003, pp. 809-813.
  66. R. Sunier (best student paper award), P. Monajemi, F. Ayazi, T. Vancura, H. Baltes, O. Brand, “Precise release and insulation technology for vertical Hall sensors and trench-defined MEMS,” in Proc. IEEE Sensors Conference, 2004, pp. 1442-1445.
  67. J. H. Seo, O. Brand, “Novel high Q-factor resonant microsensor platform for chemical and biological applications,” in Proc. 1st Workshop on Nanomechanical Sensors, 2004, p. 25.
  68. R. Sunier, Y. Li, K.-U. Kirstein, T. Vancura, H. Baltes, O. Brand, “Resonant magnetic field sensor with frequency output,” in Proc. Micro Electro Mechanical Systems 2005 (MEMS 2005), IEEE, pp. 339-342.
  69. J. H. Seo, O. Brand, “High-Q factor resonant sensor platform for chemical and biological applications,” in Transducers ‘05, Digest of Technical Papers, 2005, pp. 593-596.
  70. N. Naik, C. Courcimault, H. Hunter, J. Berg, J. Lee, K. Naeli, T. Wright, M. Allen, O. Brand, A. Glezer, and W. King, “Fabrication and characterization of liquid and gaseous micro- and nanojets,” in Proc. of IMECE 2005: ASME International Mechanical Engineering Congress & Exposition, 2005, pp. 731-736.
  71. J. Lee, K. Naeli, H. Hunter, J. Berg, T. Wright, C. Courcimault, N. Naik, M. Allen, O. Brand, A. Glezer, and W. King, “Microcantilever based metrology tool for flow characterization of liquid and gaseous micro/nanojets,” in Proc. of IMECE 2005: ASME International Mechanical Engineering Congress & Exposition, 2005, pp. 95-100.
  72. O. Brand, “CMOS-based resonant sensors,” in Proc. 2005 IEEE Sensors Conference, 2005, pp. 129-132.
  73. K. Naeli, O. Brand, “Cantilever sensor with stress-concentrating piezoresistors design,” in Proc. 2005 IEEE Sensors Conference, 2005, pp. 592-595.
  74. J. H. Seo, O. Brand, “Self-magnetic excitation for in-plane mode resonant microsensor,” in Proc. 2006 IEEE Microelectromechanical Systems Conference (MEMS 2006), 2006, pp. 74-77.
  75. J. H. Seo, K.S. Demirci, A. Byun, S. Truax, O. Brand, “Novel temperature compensation scheme for microresonators based on controlled stiffness modulation,” in Transducers ‘07, Digest of Technical Papers, 2007, pp. 2457-2460.
  76. K. Naeli, P. Tandon, O. Brand, “Geometrical optimization of resonant cantilever sensors,” in Transducers ‘07, Digest of Technical Papers, 2007, pp. 245-248.
  77. J. H. Seo, L. Betancor, K.S. Demirci, A. Byun, J. Spain, O. Brand, “Liquid-phase biochemical sensing with disk-type resonant microsensor,” in Transducers ‘07, Digest of Technical Papers, 2007, pp. 1737-1740.
  78. K. Naeli, O. Brand, “Coupling high force sensitivity and high stiffness in piezoresistive cantilevers with embedded Si-nanowires,” in Proc. 2007 IEEE Sensors Conference, Atlanta, 2007, pp. 1065-1068.
  79. J. H. Seo, A. Byun, G.T. Dobbs, Y.I, Luzinova, S. Truax, K.S. Demirci, B. Mizaikoff, O. Brand, “Mass-sensitive microsensor platform for liquid-phase environmental sensing,” in Proc. American Chemical Society, 234th National Meeting and Exposition, Boston, 2007.
  80. S. Truax, S. Demirci, J.H. Seo, P. Kurzawski, Y. Luzinova, A. Hierlemann, B. Mizaikoff, O. Brand, “Gas and liquid phase sensing of volatile organics with disk microresonator,” in Proc. 2008 IEEE Microelectromechanical Systems Conference (MEMS 2008), 2008, pp. 220-223.
  81. J. H. Seo, K.S. Demirci, S. Truax, L.A. Beardslee, O. Brand, “Tracking microresonator Q-factor in closed-loop operation,” in Proc. 2008 Solid-State Sensor, Actuator and Microsystem Workshop, Hilton Head, 2008, pp. 190-193.
  82. O. Brand (invited), K. Naeli, K.S. Demirci, S. Truax, J.H. Seo, “Silicon-Based Resonant Sensors,” in Proc. Micromechanics Europe Workshop 2008, Aachen, Germany, 2008, pp. 121-127.
  83. S. Truax, K.S. Demirci, J.H. Seo, P. Kurzawski, Y. Luzinova, A. Hierlemann, B. Mizaikoff, O.Brand, “Sensing of volatile organics with disk microresonators,” in Proc. Eurosensors 2008, 2008.
  84. J. M. Cesaretti, W.P. Taylor, G. Monreal, O. Brand, “Effect of stress due to plastic package moisture absorption in Hall sensors,” in Proc. IEEE Int. Magnetics Conf. (Intermag 2009), 2009, abstract DR-13.
  85. K. S. Demirci, J.H. Seo, S. Truax, L.A. Beardslee, Y. Luzinova, B. Mizaikoff, O. Brand, “Frequency drift compensation in mass-sensitive chemical sensors based on periodic stiffness modulation,” in Proc. 2009 IEEE Microelectromechanical Systems Conference (MEMS 2009), 2009, pp. 284-287.
  86. K. S. Demirci, S. Truax, L.A. Beardslee, O. Brand, “Chemical microsystem based on integration of microresonant sensor and CMOS ASIC,” in Proc. 2009 IEEE Custom Integ. Circuits Conf. (CICC 2009), 2009, pp. 515-518.
  87. S. Truax, K.S. Demirci, A. Hierlemann, O. Brand, “Exploring the resolution of different disk-type chemical sensors,” in Proc. 2009 Int. Conf. Solid-State Sensors, Actuators and Microsystems (Transducers 2009), 2009, pp. 1838-1841.
  88. I. Dufour, F. Josse, S. Heinrich, C. Lucat, C. Ayela, F. Ménil, O. Brand, “Unconventional uses of cantilevers for chemical sensing in gas and liquid environments,” in Proc. Eurosensors XXIV, Linz, Austria, 2010, 6 pp.
  89. L. A. Beardslee, A.M. Addous, K.S. Demirci, S. Heinrich, F. Josse, O. Brand, “Geometrical optimization of resonant cantilevers vibrating in in-plane flexural modes,” in Proc. IEEE Sensors Conference, Waikoloa, Hawaii, 2010, pp. 1996-1999.
  90. L. A. Beardslee, K.S. Demirci, Y. Luzinova, J.J. Su, B. Mizaikoff, S. Heinrich, F. Josse, O. Brand, “In-plane mode resonant cantilevers as liquid-phase chemical sensors with ppb range limits of detection,” in Proc. Hilton Head Solid-State Sensors, Actuators, and Microsystems Workshop, Hilton Head Island, SC, 2010, pp. 23-26.
  91. R. Cox, F. Josse, S.M. Heinrich, I. Dufour, O. Brand, “Resonant microcantilevers vibrating laterally in viscous liquid media,” in Proceedings IEEE International Frequency Control Symposium, Newport Beach, CA, 2010, 6 pp.
  92. S. M. Heinrich, R. Maharjan, I. Dufour, F. Josse, L.A. Beardslee, O. Brand, “An analytical model of a thermally excited microcantilever vibrating laterally in a viscous fluid,” in Proceedings IEEE Sensors 2010 Conference, Waikoloa, Hawaii, 2010, pp. 1399-1404.
  93. S. M. Heinrich, R. Maharjan, L.A. Beardslee, O. Brand, I. Dufour, F. Josse, “An analytical model for in-plane flexural vibrations of thin cantilever-based sensors in viscous fluids: applications to chemical sensing in liquids,” in Proceedings, International Workshop on Nanomechanical Cantilever Sensors, Banff, Canada, 2010, 2 pp.
  94. L. A. Beardslee, S. Truax, J.H. Lee, S. Pavlidis, P. Hesketh, K.M. Hansen, R. Kramer, O. Brand, “Selectivity enhancement strategy for cantilever-based gas-phase VOC sensors through use of peptide-functionalized carbon nanotubes,” in Proc. IEEE Conference on Microelectromechanical Systems (MEMS 2011), 2011, pp. 964-967.
  95. S. Truax, K.S. Demirci, L. Beardslee, Y. Luzinova, B. Mizaikoff, A. Hierlemann, O. Brand, “Effect of polymer thickness on the chemical sensing behavior of polymer-coated mass-sensitive disk resonators,” in Proc. IEEE Conference on Microelectromechanical Systems (MEMS 2011), 2011, pp. 853-856.
  96. C. A. Wick, J.-J. Su, O. Brand, J.H. McClellan, P.T. Bhatti, S. Tridandapani, “A trimodal system for the acquisition of synchronous echocardiography, electrocardiography, and seismocardiograhy data,” Proc. Int. Conf. IEEE Engineering in Medicine and Biology Society, pp. 6911-6914, 2011.
  97. J.-J. Su, C. Carron, S. Truax, K.S. Demirci, L.A. Beardslee, O. Brand, “Assessing polymer sorption kinetics using micromachined resonators,” in Transducers 2011, Technical Digest, pp. 1420-1423, 2011.
  98. K. S. Demirci, L.A. Beardslee, S. Truax, J.-J. Su, O. Brand, “Integrated silicon-based chemical microsystem for portable sensing applications,” in Transducers 2011, Technical Digest, pp. 779-782, 2011.
  99. L. A. Beardslee, S. Truax, J.-J. Su, S.M. Heinrich, F. Josse, O. Brand, “On the relative sensitivity of mass-sensitive chemical microsensors,” in Transducers 2011, Technical Digest, pp. 1112-1115, 2011.
  100. L. Fadel-Taris, C. Ayela, I. Dufour, F. Josse, S.M. Heinrich, D. Saya, O. Brand, “Influence of nonideal clamping in microcantilever resonant frequency estimation,” in Proceedings 2011 Joint Conf. IEEE International Frequency Control and European Frequency and Time Forum, San Francisco, CA, 2011, doi: 10.1109/FCS.2011.5977310.
  101. R. Cox, J. Zhang, F. Josse, S.M. Heinrich, F. Josse, S.M. Heinrich, I. Dufour, L.A. Beardslee, O. Brand, “Damping and mass sensitivity of laterally vibrating resonant microcantilevers in viscous liquid media,” in Proceedings 2011 Joint Conf. IEEE International Frequency Control and European Frequency and Time Forum, San Francisco, CA, 2011, doi: 10.1109/FCS.2011.5977838.
  102. L. A. Beardslee, J. Lehmann, C. Carron, J.-J. Su, F. Josse, I. Dufour, O. Brand, “Thermally actuated silicon tuning fork resonators for sensing applications in air,” in Proc. IEEE Conference on Microelectromechanical Systems (MEMS 2012), 2012, pp. 607-610.
  103. T. Cai, F. Josse, I. Dufour, S. Heinrich, N. Nigro, O. Brand, “Resonant characteristics of rectangular microcantilevers vibrating torsionally in viscous liquid media,” in Proceedings 2012 IEEE International Frequency Control Symposium, Baltimore, 2012, pp. 807-812.
  104. H. K. Bardaweel, K. Zamuruyev, J.-P. Delplanque, N.J. Kenyon, C. Carron, O. Brand, C.E. Davis, “Microscale surface energy properties for enhanced surface condensation and sampling of exhaled breath metabolites,” in Proc. Solid-State Sensors, Actuators, and Microsystems Workshop, Hilton Head Island, SC, 2012, pp. 239-242.
  105. L. A. Beardslee, S. Aravamudhan, C. Carron, P. Joseph, S.M. Heinrich, F. Josse, O. Brand, “Detection of anti-IgG using cantilever-type resonant microstructures vibrating in in-plane flexural modes,” in Proceedings IEEE Sensors Conference, 2012, pp. 1676-1679.
  106. S. Pavlidis, J.-J. Su, L.A. Beardslee, P. Leclaire, J.A. Hagen, N. Kelley-Loughnane, O. Brand, “Pulsed operation of InGaZnO TFTs for VOC sensing applications,” in Proc. IEEE Sensors Conference, 2012, pp. 1999-2002.
  107. H. Alroweis, H. Toereyin, O. Brand, P.T. Bhatti, “Design and analysis of a biomimetic angular acceleration sensor for a vestibular prosthesis,” in Proc. 2013 Nanomechanical Sensing Workshop, Stanford University, Stanford, CA, 2013, pp. 79-80.
  108. M. S. Sotoudegan, S.M. Heinrich, F. Josse, N.J. Nigro, I. Dufour, O. Brand, “A simple model for the in-plane rotational response of a disk resonator in liquid: Resonant frequency, quality factor, and optimal geometry,” in Proc. 2013 Nanomechanical Sensing Workshop, Stanford University, Stanford, CA, 2013, pp. 107-108.
  109. J. A. Schultz, S.M. Heinrich, F. Josse, N.J. Nigro, I. Dufour, L.A. Beardslee, O. Brand, “Timoshenko beam effects in lateral-mode microcantilever-based sensors in liquid,” in Proc. 2013 Nanomechanical Sensing Workshop, Stanford University, Stanford, CA, 2013, pp. 143-144.
  110. J.-J. Su, L.A. Beardslee, O. Brand, “Combined chemoresistive and chemocapacitive microsensor structures,” in Transducers 2013, Technical Digest, pp. 258-261, 2013.
  111. I. Dufour, E. Lemaire, B. Caillard, H. Debeda, C. Lucat, S.M. Heinrich, F. Josse, O. Brand, “Influence of fluid-structure interaction on microcantilevers vibrations: applications to rheological fluid measurement and chemical detection,” Proc. SPIE, vol. 8763, p. 87630K (10 pp.), 2013.
  112. J. Zhang, F. Josse, S.M. Heinrich, N. Nigro, I. Dufour, O. Brand, “Resonant characteristics of rectangular hammerhead microcantilevers vibrating laterally in viscous liquid media,” in Proc. IEEE International Frequency Control Symposium, Prague, Czech Republic, 4 pp., 2013.
  113. C. Carron, P. Getz, J.-J. Su, D.S. Gottfried, F. Josse, S.M. Heinrich, O. Brand, “Cantilever-based resonant gas sensors with integrated recesses for localized sensing layer deposition,” IEEE Sensors Conference, 2013, pp. 826-829.
  114. M. S. Sotoudegan, S.M. Heinrich, F. Josse, N.J. Nigro, I. Dufour, O. Brand, “Effect of design parameters on the rotational response of a novel disk resonator for liquid-phase sensing: Analytical results,” Proc. IEEE Sensors Conference, 2013, pp. 1164-1167.
  115. J. A. Schultz, S.M. Heinrich, F. Josse, I. Dufour, N.J. Nigro, L.A. Beardslee, O. Brand, “Timoshenko beam model for lateral vibration of liquid-phase microcantilevers-based sensors,” in Conf. Proc. Society for Experimental Mechanics Series, vol. 5. pp. 115-124, 2014.
  116. M. Sotoudegan, S.M. Heinrich, F. Josse, I. Dufour, O. Brand, “A Multi-Modal Continuous-Systems Model of a Novel High-Q Disk Resonator in a Viscous Liquid,” in Proceedings, International Workshop on Nanomechanical Sensing (NMC 2014), Madrid, Spain, 2014, pp. 98-99.
  117. J. Zhang, F. Josse, S.M. Heinrich, N. Nigro, O. Brand, “Laterally Vibrating Symmetric Hammerhead Microcantilevers in Viscous Liquids,” in Proceedings, International Workshop on Nanomechanical Sensing (NMC 2014), Madrid, Spain, 2014, pp. 204-205.
  118. H. Alrowais, O. Brand, P.T. Bhatti, “Design, simulation and fabrication of thermal angular accelerometers,” in Proceedings Solid-State Sensors, Actuators and Microsystems Workshop, Hilton Head Island, SC, 2014, pp. 243-246.
  119. C. Carron, P. Getz, J.-J. Su, L.A. Beardslee, S.M. Heinrich, F. Josse, O. Brand, “Cantilever-based resonant microsensor with integrated temperature modulation,” in Proceedings Solid-State Sensors, Actuators and Microsystems Workshop, Hilton Head Island, SC, 2014, pp. 363-366.
  120. S. Pavlidis, P. Getz, J. Hagen, N. Kelley-Loughnane, B. Bayraktaroglu, O. Brand, “Investigating thin film passivations for IGZO dual gate PH sensors fabricated at low temperature,” Transducers 2015, Technical Digest, 2015, pp. 1334-1337.
  121. C. Carron, P. Getz, S.M. Heinrich, F. Josse, O. Brand, “Cantilever-based resonant microsensors with integrated temperature modulation for transient chemical analysis,” Transducers 2015, Technical Digest, 2015, pp. 1511-1514.
  122. H. Alrowais, P. Getz, M. Kim, J.-J. Su, O. Brand, “Bio-inspired fluidic thermal angular accelerometer,“ in Proc. IEEE Conference on Microelectromechanical Systems (MEMS 2016), 2016, pp. 761-764.
  123. M. Kim, H. Alrowais, S. Pavlidis, O. Brand, “Scalable liquid metal thin line patterning for passive electronic components using soft lithography,” in Proceedings Solid-State Sensors, Actuators and Microsystems Workshop, Hilton Head Island, SC, 2016, pp. 62-63.
  124. C. Carron, P. Getz, M. Navaei, G. McMurray, O. Brand, “Microfabricated thermal pre-concentrator with integrated cantilever-based resonant sensors,“ in Proceedings Solid-State Sensors, Actuators and Microsystems Workshop, Hilton Head Island, SC, 2016, pp. 368-371.
  125. O. Brand, P. Getz, C. Carron, “Cantilever-based resonant chemical microsensors,” ECS Transactions, vol. 75, pp. 27-34, 2016.
  126. M. Kim, S. Pavlidis, M. Kim, O. Brand, H. Chen, “Room temperature CO2 detection using interdigitated capacitors with heteropolysiloxane sensing films,” Proc. IEEE Sensors Conference, 2016, pp. 190-192.
  127. M. Kim, H. Alrowais, C. Kim, O. Brand, “All-soft sensing platform based on liquid metal for liquid- and gas-phase VOC detection,” Proc. IEEE Sensors Conference, 2016, pp. 76-78.
  128. M. Kim, H. Alrowais, O. Brand, “All-soft physical and chemical microsystems based on liquid metal for wearable electronics applications,” in Proc. IEEE Conference on Microelectromechanical Systems (MEMS 2017), 2017, pp. 1162-1165.