Patents | Integrated Microsystems Laboratory

15

United States Patent: 11,802,309

“Heating mechanism for DNA amplification, extraction or sterilization using photo-thermal nanoparticles”, P. Roche, A. Kirk, L. Beitel, M. Paliouras, M. Trifiro, V. Chodavarapu, M. Najih, and J. Thiemann, United States Patent: 11,802,309. October 31, 2023.

14

United States Patent: 11,664,781

“Methods and Devices for Microelectromechanical Resonators”, V. P. Chodavarapu and G. Xereas, United States Patent: 11,664,781. May 30, 2023.

13

United States Patent: 11,479,460

“Methods and Devices for Microelectromechanical Resonators”, V. P. Chodavarapu and G. Xereas, United States Patent: 11,479,460. October 25, 2022.

12

United States Patent: 11,414,201

“Secure Smart Node and Data Concentrator for Distributed Engine Control”, V. P. Chodavarapu, and G. Subramanyam, United States Patent: 11,414,201. August 16, 2022.

11

United States Patent: 11,111,135

“Methods and devices for microelectromechanical pressure sensors”, V. P. Chodavarapu, A. Merdassi, C. Allan, United States Patent: 11,111,135. September 7, 2021.

10

United States Patent: 10,782,235

"Methods and Devices for Xerogel Based Sensors", V. P. Chodavarapu, D. S. Daivasagaya, and A. Merdassi, United States Patent: 10,782,235, September 22, 2020.

9

United States Patent: 10,604,798

"Heating mechanism for DNA amplification, extraction or sterilization using photo-thermal nanoparticles”, P. Roche, A. Kirk, L. Beitel, M. Paliouras, M. Trifiro, V. Chodavarapu, M. Najih, and J. Thiemann, United States Patent: 10,604,798. March 31, 2020.

8

United States Patent: 10,499,822

"Methods and Systems Relating to Biological Systems with Embedded MEMS Sensors, C. Allan, E. Harvey, and V. P. Chodavarapu, United States Patent: 10,499,822, December 10, 2019.

7

United States Patent: 10,488,339

“Frequency domain fluorescence measurement system”, V. P. Chodavarapu, United States Patent: 10,488,339. November 26, 2019.

6

United States Patent: 10,291,200

Methods and Devices for Microelectromechanical Resonators, V. P. Chodavarapu and G. Xereas, United States Patent: 10,291,200, May 14, 2019.

5

United States Patent: 10,093,971

"Heating mechanism for DNA amplification, extraction or sterilization using photo-thermal nanoparticles”, P. Roche, A. Kirk, L. Beitel, M. Paliouras, M. Trifiro, V. Chodavarapu, M. Najih, and J. Thiemann, United States Patent: 10,093,971. October 9, 2018.

4

United States Patent: 9,816,132

“Heating mechanism for DNA amplification, extraction or sterilization using photo-thermal nanoparticles”, P. Roche, A. Kirk, L. Beitel, M. Paliouras, M. Trifiro, V. Chodavarapu, M. Najih, and J. Thiemann, United States Patent: 9,816,132. November 14, 2017.

3

United States Patent: 8,653,833

"Self Calibrating High Throughput Integrated Impedance Spectrometer for Biological Applications", V. P. Chodavarapu and M. A. Trifiro, United States Patent: 8,653,833. February 18, 2014.

2

United States Patent: 8,263,986

"Optically Interrogated Solid State Biosensors Incorporating Porous Materials - Devices ", M. Hajj-Hassan, V.P. Chodavarapu, S. Musallam, United States Patent: 8,263,986. September 11, 2012.

1

United States Patent: 7,794,584

"pH-Change Sensor and Method", V. P. Chodavarapu, A. H. Titus and A. N. Cartwright, R. M. Bukowski, F. V. Bright, United States Patent: 7,794,584, September 14, 2010

Integrated Microsystems Laboratory

Department of Electrical and Computer Engineering

Publications

Patent

United States Patent: 11,802,309

“Heating mechanism for DNA amplification, extraction or sterilization using photo-thermal nanoparticles”, P. Roche, A. Kirk, L. Beitel, M. Paliouras, M. Trifiro, V. Chodavarapu, M. Najih, and J. Thiemann, United States Patent: 11,802,309. October 31, 2023.

United States Patent: 11,664,781

“Methods and Devices for Microelectromechanical Resonators”, V. P. Chodavarapu and G. Xereas, United States Patent: 11,664,781. May 30, 2023.

United States Patent: 11,479,460

“Methods and Devices for Microelectromechanical Resonators”, V. P. Chodavarapu and G. Xereas, United States Patent: 11,479,460. October 25, 2022.

United States Patent: 11,414,201

“Secure Smart Node and Data Concentrator for Distributed Engine Control”, V. P. Chodavarapu, and G. Subramanyam, United States Patent: 11,414,201. August 16, 2022.

United States Patent: 11,111,135

“Methods and devices for microelectromechanical pressure sensors”, V. P. Chodavarapu, A. Merdassi, C. Allan, United States Patent: 11,111,135. September 7, 2021.

United States Patent: 10,782,235

"Methods and Devices for Xerogel Based Sensors", V. P. Chodavarapu, D. S. Daivasagaya, and A. Merdassi, United States Patent: 10,782,235, September 22, 2020.

United States Patent: 10,604,798

"Heating mechanism for DNA amplification, extraction or sterilization using photo-thermal nanoparticles”, P. Roche, A. Kirk, L. Beitel, M. Paliouras, M. Trifiro, V. Chodavarapu, M. Najih, and J. Thiemann, United States Patent: 10,604,798. March 31, 2020.

United States Patent: 10,499,822

"Methods and Systems Relating to Biological Systems with Embedded MEMS Sensors, C. Allan, E. Harvey, and V. P. Chodavarapu, United States Patent: 10,499,822, December 10, 2019.

United States Patent: 10,488,339

“Frequency domain fluorescence measurement system”, V. P. Chodavarapu, United States Patent: 10,488,339. November 26, 2019.

United States Patent: 10,291,200

Methods and Devices for Microelectromechanical Resonators, V. P. Chodavarapu and G. Xereas, United States Patent: 10,291,200, May 14, 2019.

United States Patent: 10,093,971

"Heating mechanism for DNA amplification, extraction or sterilization using photo-thermal nanoparticles”, P. Roche, A. Kirk, L. Beitel, M. Paliouras, M. Trifiro, V. Chodavarapu, M. Najih, and J. Thiemann, United States Patent: 10,093,971. October 9, 2018.

United States Patent: 9,816,132

“Heating mechanism for DNA amplification, extraction or sterilization using photo-thermal nanoparticles”, P. Roche, A. Kirk, L. Beitel, M. Paliouras, M. Trifiro, V. Chodavarapu, M. Najih, and J. Thiemann, United States Patent: 9,816,132. November 14, 2017.

United States Patent: 8,653,833

"Self Calibrating High Throughput Integrated Impedance Spectrometer for Biological Applications", V. P. Chodavarapu and M. A. Trifiro, United States Patent: 8,653,833. February 18, 2014.

United States Patent: 8,263,986

"Optically Interrogated Solid State Biosensors Incorporating Porous Materials - Devices ", M. Hajj-Hassan, V.P. Chodavarapu, S. Musallam, United States Patent: 8,263,986. September 11, 2012.

United States Patent: 7,794,584

"pH-Change Sensor and Method", V. P. Chodavarapu, A. H. Titus and A. N. Cartwright, R. M. Bukowski, F. V. Bright, United States Patent: 7,794,584, September 14, 2010