Research groups on Microcantilever Sensors

Name

Institute

Expertise

Adams, Jesse

Univ. Nevada, Reno, USA

Mechanical

Amiot, Fabien

MIC/DTU, Denmark

Sensors/Mehanical

Bergaud, Christian

LAAS-CNRS

Sensing

Berger, Rudiger.

Univ. Heidelberg, GE

Sensing

Bergese, Paolo

University of Brescia

Sensing

Boisen, Anja

Inst. Mikro. Nano, DK

Sensing

Bojicic, A.

Univ. Belgrade

Device

Bottomley, Lawrence A.

Georg. Inst. Tech. USA

Sensing

Brown, Gilbert

Oak Ridge Nat. Lab. USA

Sensing

Butt, Hans- Jürgen

Max-Planck-Inst Poly., GE

Sensing

Byrne, Mark E.

Auburn Univ. USA

Device

Cheng, Zhongyang

Arburn Univ. USA

Sensing

Chikoti, Ashutosh

Duke Univ. USA

Sensing

Cocuzza, Matteo

Polytechnic of Turin, Italy

Resonance cantilevers

Colton, Jonathan S.

Georgia Inst. Tech. USA

Fabrication

Datskos, Panos G.

Oak Ridge Nat. Lab. USA

Sensing

Dufour, Isabelle

IXL laboratory, FR

Sensing

Fedder, Gary

Carnegie Mellon Univ USA

Device

George, Michael A.

Univ. Al. Huntsville, USA

Sensing

Gerber, Christoph

Univ. Basel, Switzerland

AFM

Grütter Peter

McGill Univ. CA

Sensing

Haenen, Ken

Hasselt Univ. BE

Sensing

Hansen, Ole

Inst. Mikro. Nano, DK

Sensing

Hegner, Martin

Univ. Basel, Switzerland

Sensing

HIKIHARA, Takashi

Kyoto Univ. Japan

Electronics

Hocheng, H.

Nat. TsingHua Univ. TW

Fabrication

Houser, E. J.

Naval Research Lab. USA

Device

Ji, Hai-Feng

LA Tech Univ. USA

Sensing

Josse, Fabien, J.

Marquette Univ. USA

Device

Kim Beomjoon 

Univ. Tokyo, Japan

Sensing

Kim, Tae Song

KAIST, Karea

Devices

King, William, P.

Georgia Inst. Tech. USA

Fabrication

Lacy, Fred

Southern Univ. USA

Device

Lang, H. P.

IBM Switzerland

Sensing

Lang, Hans Peter

Univ. Basel, Switzerland

Sensing

Li, Yanning

Tianjin Univ. China

Sensing

Lochon, Frederic

IXL lab, France

Sensing

Majumdar, Arun

UC Berkeley, USA

Sensing

Manalis, S. R.

Mass. Inst. Tech. USA

Fabrication, sensing.

McGill, R. A.

Naval Research Lab. USA

Device

Meng, Tim Tit

Nat. Univ. Singapore, SG

Sensing

Millán, M.

Univ. Polit. Catal. Spain

Device

Moreland, John

NIST, USA

Sensing

Mutharasan, Raj

Drexel Univ. USA

Resonance sensing

Nordin, Gregory P.

Brigham Young Univ. USA

Sensing

Pirri, Fabrizio

Polytech. of Torino, Italy

Resonance Cantilever

Porter, Timothy L.

North. Arizona Univ. USA

Device

Raiteri, Roberto

Univ. Genova, Italy

Sensing

Reifenberger, Ronald

Purdue Univ. USA

Resonance sensing

Rebiere, Dominique

IXL laboratory, France

Sensing

Rodríguez, Angel

Univ. Politéc. Catal. Spain

Fabrication/sensing

Roger, Jean Paul

ESPCI, France

Optical Measurement

Roukes, Michael

CALTECH, USA

Fabrication, sensing

Sepaniak, Michael, J.

Univ. Tenn. USA

Sensing

Shih, Wan-Yang

Drexel Univ. USA

Fabrication/sensing

Shih, Wei-Heng

Drexel Univ. USA

Fabrication

Soboyejo, W. O.

Princeton Univ. USA

Sensing

Tamayo, Javier

CNM-CSIC

mechanical

Teva, Jorge

Univ. Auto. Barc. Spain

Mechanical

Thompson, Car V.

Mass. Inst. Tech. USA

Materials

Thundat, Thomas

Oak Rige, Nat. Lab, USA

Sensing

TSamis, C.

Nat. Tech. Univ. Ath., GR

Device

Tseytlin, Yakov M.

Inst. Soc. Eng. USA

Device

Tsukruk, Vladimir V.

Iowa Sate Univ. USA

Materials

Turner, Kimberly L.

UC Santa Barbara, USA

Mechanical

Vafai, Kambiz

UC Riverside, USA

Mechanical

Vinayak P. Dravid

Northwestern Univ. USA

Device

Voiculescu, Ioana

City College of NY, USA

Gas sensor device

Wang, Zheyao

Tsinghua Univ. China

Fabrication

Welland, M. E.

Cambridge Univ.

Sensing

Xu, Xianfan

Purdue Univ. USA

Device

Zaghloul, M. E.

George Washington Univ.

Device

Zauscher, Stefan

Duke Univ. USA

Sensing

Zhao, Ya-Pu

Inst. Mech. China

Sensing

Ziegler, Christiane

Univ. Kaiserslautern, GE

Sensing

 

 

 

Review papers on microcantilever sensing:

2006

 

Development of novel and sensitive sensors based on microcantilever of atomic force microscope.  Y. Jin, K. Wang, R. Jin,  Progress in Natural Science  (2006),  16(5),  445-451. 

 

Microcantilever (MCL) biosensing.      Yan, Xiaodong; Ji, Hai-Feng; Thundat, Thomas.    Institute for Micromanufacturing,  Louisiana Tech University,  Ruston,  LA,  USA.    Current Analytical Chemistry  (2006),  2(3),  297-307. 

 

Freestanding nanostructures via layer-by-layer assembly.      Jiang, Chaoyang; Tsukruk, Vladimir V.    Department of Materials Science and Engineering,  Iowa State University,  Ames,  IA,  USA.    Advanced Materials (Weinheim, Germany)  (2006),  18(7),  829-840.

 

Nanomechanical biosensors: a new sensing tool.      Carrascosa, L. G.; Moreno, M.; Alvarez, M.; Lechuga, L. M.    Biosensors Group, CSIC Isaac Newton,  Microelectronics National Center (IMM-CNM),  Madrid,  Spain.    TrAC, Trends in Analytical Chemistry  (2006),  25(3),  196-206.

 

2005

Environmental monitoring using microcantilever sensors.  Thundat, Thomas G.; Ji, Hai-Feng; Brown, Gilbert M. Life Sciences Division,  Oak Ridge National Laboratory,  Oak Ridge,  TN,  USA.    ACS Symposium Series  (2005),  904(Subsurface Contamination Remediation),  284-305. 

 

Technological platforms based on micro/nanobiosensors as early warning systems for biological warfare.      Lechuga, L. M.; Tamayo, J.; Calle, A.; Calleja, M.; Dominquez, C.    Microelectronics National Center,  CSIC,  Spain.    NATO Security through Science, Series B: Physics and Biophysics  (2005),  1(Defense against Bioterror),  175-197. 

 

Microcantilever biosensors.      Hansen, Karolyn M.; Thundat, Thomas.    Nanoscale Science and Devices Group, Life Sciences Division,  Oak Ridge National Laboratory,  Oak Ridge,  TN,  USA.    Methods (San Diego, CA, United States)  (2005),  37(1),  57-64.

 

Moore's law in homeland defense: An integrated sensor platform based on silicon microcantilevers.      Pinnaduwage, Lal A.; Ji, Hai-Feng; Thundat, Thomas.    Life Sciences Division,  Oak Ridge National Laboratory,  Oak Ridge,  TN,  USA.    IEEE Sensors Journal  (2005),  5(4),  774-785. 

2004

Chemical and biological sensors based on microcantilevers.      Datskos, P. G.; Lavrik, N. V.; Sepaniak, M. J.    Engineering Science and Technology Division,  Oak Ridge National Laboratory,  Oak Ridge,  TN,  USA.    NATO Science Series, II: Mathematics, Physics and Chemistry  (2004),  181(Smart Sensors and MEMS),  331-379. 

 

Microcantilever chemical/bio sensors.      Ji, Hai-Feng; Velanki, Sreepriya; Yan, Xiaodong; Purushotham, Vemana; Haque, Ziaul; Tang, Yanjun.    Institute for Micromanufacturing,  Louisiana Tech University,  Ruston,  LA,  USA.    Recent Research Developments in Chemistry  (2004),  2  1-27. 

 

Molecular recognition of biowarfare agents using micromechanical sensors.      Ji, Hai Feng; Yang, Xiaodong; Zhang, Jing; Thundat, Thomas.    Institute for Micromanufacturing,  Louisiana Tech University,  Ruston,  LA,  USA.    Expert Review of Molecular Diagnostics  (2004),  4(6),  859-866. 

 

Cantilever-based sensors.      Then, D.; Ziegler, C.    University of Kaiserslautern,  Kaiserslautern,  Germany.  Editor(s): Nalwa, Hari Singh.    Encyclopedia of Nanoscience and Nanotechnology  (2004),  1  499-516. 

 

Micro and nanocantilever sensors.      Datskos, P. G.; Thundat, T.; Lavrik, Nickolay V.    Oak Ridge National Laboratory,  Oak Ridge,  TN,  USA.  Editor(s): Nalwa, Hari Singh.    Encyclopedia of Nanoscience and Nanotechnology  (2004),  5  551-560. 

 

Cantilever transducers as a platform for chemical and biological sensors.      Lavrik, Nickolay V.; Sepaniak, Michael J.; Datskos, Panos G..    Oak Ridge National Laboratory,  Oak Ridge,  TN,  USA.    Review of Scientific Instruments  (2004),  75(7),  2229-2253. 

2003

Comparison of self-sensing techniques for mercury vapor detection using piezoelectric microcantilevers.      Rogers, B.; Bauer, C. A.; Adams, J. D.    Department of Mechanical Engineering and Nevada Ventures Nanoscience Program,  University of Nevada,  Reno,  USA.    Micro-Electro-Mechanical Systems  (2003),  5  663-666. 

 

Electron transfer behavior of biological macromolecules towards the single-molecule level.      Zhang, Jingdong; Grubb, Mikala; Hansen, Allan G.; Kuznetsov, Alexander M.; Boisen, Anja; Wackerbarth, Hainer; Ulstrup, Jens.    Department of Chemistry,  Technical University of Denmark,  Lyngby,  Den.    Journal of Physics: Condensed Matter  (2003),  15(18),  S1873-S1890. 

 

Micromechanical instruments for ferromagnetic measurements.      Moreland, John.    National Institute of Standards and Technology,  Boulder,  CO,  USA.    Journal of Physics D: Applied Physics  (2003),  36(5),  R39-R51. 

2002

No review

2001

Micromechanical cantilever-based biosensors.      Raiteri, R.; Grattarola, M.; Butt, H.-J.; Skladal, P.    Neural and Bioelectronic Technologies Group, Department of Biophysical and Electronic Engineering,  University of Genova,  Genoa,  Italy.    Sensors and Actuators, B: Chemical  (2001),  B79(2-3),  115-126.

2000

Scanning probe microsystems.      Rangelow, Ivo W.    Institute of Technological Physics,  University of Kassel,  Kassel,  Germany.  Editor(s): Osvald, Jozef.    ASDAM 2000, International EuroConference on Advanced Semiconductor Devices and Microsystems, Conference Proceedings, 3rd, Smolenice Castle, Slovakia, Oct. 16-18, 2000  (2000),     71-80. 

 

Advanced sensor technology based on oxide thin film-MEMS integration.      Tuller, Harry L.; Mlcak, Richard.    Department of Materials Science and Engineering,  Massachusetts Institute of Technology,  Cambridge,  MA,  USA.    Journal of Electroceramics  (2000),  4(2/3),  415-425. 

 

Microcantilever-based biosensors.      Moulin, A. M.; O'Shea, S. J.; Welland, M. E.    Department of Engineering,  Nanoscale Science Group,  Cambridge,  UK.    Ultramicroscopy  (2000),  82(1-4),  23-31.

1999

In situ scanning probe microscopy and new perspectives in analytical chemistry.      Andersen, J. E. T.; Zhang, J.-D.; Chi, Q.; Hansen, A. G.; Nielsen, J. U.; Friis, E. P.; Ulstrup, J.; Boisen, A.; Jensenius, H.    Department of Chemistry,  Technical University of Denmark,  Lyngby,  Den.    TrAC, Trends in Analytical Chemistry  (1999),  18(11),  665-674. 

 

Magnetostrictive thin-film transducer elements for micro-electro-mechanical systems.      Karl, W. J.; Watts, R.; Powell, A. L.; Whitehouse, C. R.; Yates, R. B.; Gibbs, M. R. J.    Microelectromechanical Systems Unit, Department of Electrical and Electronic Engineering,  University of Sheffield,  Sheffield,  UK.    Proceedings - Electrochemical Society  (1999),  98-20(Magnetic Materials, Processes, and Devices),  354-367. 

1998

Inorganic sensors utilizing MEMS [microelectromechanical structure] and microelectronic technologies.      Tuller, Harry L.; Mlcak, Richard.    Department of Materials Science and Engineering,  Massachusetts Institute of Technology,  Cambridge,  MA,  USA.    Current Opinion in Solid State & Materials Science  (1998),  3(5),  501-504. 

 

Scanning probe microscopy.      Bottomley, Lawrence A.    School of Chemistry and Biochemistry,  Georgia Institute of Technology,  Atlanta,  GA,  USA.    Analytical Chemistry  (1998),  70(12),  425R-475R.

1997

Microcantilever sensors.      Thundat, T.; Oden, P. I.; Warmack, R. J.    Health Science Research Division, Oak Ridge National Laboratory,  Oak Ridge,  TN,  USA.    Microscale Thermophysical Engineering  (1997),  1(3),  185-199.

 

Chemical, physical, and biological detection using microcantilevers.      Thundat, T.; Oden, P.I.; Warmack, R.J.    Life Sciences Research Division,  Oak Ridge National Laboratory,  Oak Ridge,  TN,  USA.    Proceedings - Electrochemical Society  (1997),  97-5(Microstructures and Microfabricated Systems),  179-187.

Last updated: September 11, 2006