Surface micromachined metallic microneedles S Chandrasekaran, JD Brazzle, AB Frazier Journal of Microelectromechanical systems 12 (3), 281-288, 2003 | 158 | 2003 |
Characterization of surface micromachined metallic microneedles S Chandrasekaran, AB Frazier Journal of Microelectromechanical systems 12 (3), 289-295, 2003 | 104 | 2003 |
Characterization of surface micromachined metallic microneedles S Chandrasekaran, AB Frazier Journal of Microelectromechanical systems 12 (3), 289-295, 2003 | 99 | 2003 |
Characterization of surface micromachined hollow metallic microneedles S Chandrasekaran, AB Frazier Micro Electro Mechanical Systems, 2003. MEMS-03 Kyoto. IEEE The Sixteenth …, 2003 | 99* | 2003 |
Compact, hand-held raman spectrometer microsystem on a chip A Zribi, SJ Kennerly, GS Claydon, L Que, A Banerjee, S Chandrasekaran, ... US Patent 7,505,128, 2009 | 51 | 2009 |
Self-adhering electrodes and methods of making the same S Chandrasekaran, NS Tambe, DE Brodnick US Patent 8,238,995, 2012 | 44 | 2012 |
Collection probe for use in a Raman spectrometer system and methods of making and using the same A Zribi, A Banerjee, SN Goravar, S Maity, GS Claydon, SJ Kennerly, ... US Patent 7,411,670, 2008 | 37 | 2008 |
Micro-electromechanical system (MEMS) based current and magnetic field sensor having improved sensitivities E Berkcan, S Chandrasekaran, CJ Kapusta, LJ Meyer, GS Claydon, ... US Patent 7,221,144, 2007 | 37 | 2007 |
Method and apparatus for improved signal to noise ratio in Raman signal detection for MEMS based spectrometers S Maity, A Banerjee, A Zribi, S Kennerly, L Que, G Claydon, ... US Patent 7,586,602, 2009 | 30 | 2009 |
Method and apparatus for improved signal to noise ratio in Raman signal detection for MEMS based spectrometers S Maity, A Banerjee, A Zribi, S Kennerly, L Que, G Claydon, ... US Patent 7,586,602, 2009 | 30 | 2009 |
Flow sensor with mems sensing device and method for using same E Berkcan, SE Weaver, S Chandrasekaran, N Chen US Patent App. 13/247,107, 2013 | 24 | 2013 |
A hybrid MEMS–fiber optic tunable Fabry–Perot filter D Hays, A Zribi, S Chandrasekaran, S Goravar, S Maity, LR Douglas, ... journal of microelectromechanical systems 19 (2), 419-429, 2010 | 21 | 2010 |
Motion artifact rejection microelectrode S Chandrasekaran, J Virtanen, S Goravar US Patent 8,229,537, 2012 | 11 | 2012 |
Systems and methods for magnetic separation of biological materials SS Murthy, JW Bray, S Chandrasekaran, AK Tiwari, AJ Dulgar-Tulloch, ... US Patent App. 12/957,240, 2012 | 10 | 2012 |
Systems and methods for magnetic separation of biological materials SS Murthy, JW Bray, S Chandrasekaran, AK Tiwari, AJ Dulgar-Tulloch, ... US Patent App. 12/957,254, 2012 | 10 | 2012 |
Probabilistic analysis of a comb-drive actuator S Goravar, S Chandrasekaran, A Zribi IEEE Sensors Journal 10 (4), 877-882, 2010 | 10 | 2010 |
Thermopile-based gas sensor SS Murthy, A Zribi, S Chandrasekaran US Patent 7,338,640, 2008 | 10 | 2008 |
Method and systems for diagnosing an engine SC Das, AK Kumar, S Chandrasekaran, R Mukherjee US Patent 10,345,195, 2019 | 9 | 2019 |
Micro-electromechanical system (MEMS) based current and magnetic field sensor using tunneling current sensing E Berkcan, CJ Kapusta, MF Aimi, S Chandrasekaran, GS Claydon US Patent 7,741,832, 2010 | 9 | 2010 |
System and method for optical power management WS Sutherland, A Zribi, L Que, GS Claydon, SJ Kennerly, A Banerjee, ... US Patent 7,692,785, 2010 | 9 | 2010 |