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| Micromachined thermal flow sensors—A review JTW Kuo, L Yu, E Meng Micromachines 3 (3), 550-573, 2012 | 307 | 2012 |
| An electrochemical intraocular drug delivery device PY Li, J Shih, R Lo, S Saati, R Agrawal, MS Humayun, YC Tai, E Meng Sensors and Actuators A: Physical 143 (1), 41-48, 2008 | 226 | 2008 |
| Wireless intraocular pressure sensing using microfabricated minimally invasive flexible-coiled LC sensor implant PJ Chen, S Saati, R Varma, MS Humayun, YC Tai Journal of Microelectromechanical Systems 19 (4), 721-734, 2010 | 225 | 2010 |
| Optically powered and optically data-transmitting wireless intraocular pressure sensor device W Fink, EH Yang, Y Hishinuma, C Lee, T George, YC Tai, E Meng, ... US Patent 7,131,945, 2006 | 192 | 2006 |
| Plasma removal of Parylene C E Meng, PY Li, YC Tai Journal of Micromechanics and Microengineering 18 (4), 045004, 2008 | 161 | 2008 |
| High strain biocompatible polydimethylsiloxane-based conductive graphene and multiwalled carbon nanotube nanocomposite strain sensors C Lee, L Jug, E Meng Applied Physics Letters 102 (18), 183511, 2013 | 159 | 2013 |
| Micromachined membrane particle filters X Yang, JM Yang, YC Tai, CM Ho Sensors and Actuators A: Physical 73 (1-2), 184-191, 1999 | 157 | 1999 |
| A passive MEMS drug delivery pump for treatment of ocular diseases R Lo, PY Li, S Saati, RN Agrawal, MS Humayun, E Meng Biomedical microdevices 11 (5), 959, 2009 | 138 | 2009 |
| Chronically implanted pressure sensors: challenges and state of the field L Yu, BJ Kim, E Meng Sensors 14 (11), 20620-20644, 2014 | 137 | 2014 |
| An implantable MEMS micropump system for drug delivery in small animals H Gensler, R Sheybani, PY Li, RL Mann, E Meng Biomedical microdevices 14 (3), 483-496, 2012 | 131 | 2012 |
| 3D Parylene sheath neural probe for chronic recordings BJ Kim, JTW Kuo, SA Hara, CD Lee, L Yu, CA Gutierrez, TQ Hoang, ... Journal of neural engineering 10 (4), 045002, 2013 | 121 | 2013 |
| MEMS device and method for delivery of therapeutic agents E Meng, YC Tai, MS Humayun, R Agrawal, R Lo, J Shih, K Kuwahara, ... US Patent 7,887,508, 2011 | 107 | 2011 |
| Novel flexible Parylene neural probe with 3D sheath structure for enhancing tissue integration JTW Kuo, BJ Kim, SA Hara, CD Lee, CA Gutierrez, TQ Hoang, E Meng Lab on a Chip 13 (4), 554-561, 2013 | 106 | 2013 |
| A parylene bellows electrochemical actuator PY Li, R Sheybani, CA Gutierrez, JTW Kuo, E Meng Journal of Microelectromechanical Systems 19 (1), 215-228, 2009 | 99 | 2009 |
| A biocompatible Parylene thermal flow sensing array E Meng, PY Li, YC Tai Sensors and Actuators A: Physical 144 (1), 18-28, 2008 | 93 | 2008 |
| Review of polymer MEMS micromachining BJ Kim, E Meng Journal of Micromechanics and Microengineering 26 (1), 013001, 2015 | 90 | 2015 |
| Flexible, penetrating brain probes enabled by advances in polymer microfabrication A Weltman, J Yoo, E Meng Micromachines 7 (10), 180, 2016 | 87 | 2016 |
| Implantable mechanical pressure sensor and method of manufacturing the same YC Tai, E Meng, PJ Chen, DC Rodger, M Humayun US Patent 7,252,006, 2007 | 84 | 2007 |
| Materials for microfabricated implantable devices: a review K Scholten, E Meng Lab on a Chip 15 (22), 4256-4272, 2015 | 82 | 2015 |
