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Publications
                                

BOOK AND BOOK CHAPTER

[Book] H. Wang and K. Sengupta, RF and mm-Wave Power Generation in Silicon, 1st edition, Academic Press, Elsevier, Dec. 2015.
                                
[Book Chapter 1] S. Hu, S. Kousai, J. Park, O. Chlieh, and H. Wang, “A transformer-based reconfigurable digital polar Doherty power amplifier fully integrated in bulk CMOS,” RF and mm-Wave Power Generation in Silicon, 1st edition, Academic Press, Elsevier, Dec. 2015, Ch 9, pp. 247-271.

[Book Chapter 2] T. Chi and H. Wang, “Silicon-based THz signal generation with multiphase subharmonic injection-locking oscillators,” RF and mm-Wave Power Generation in Silicon, 1st edition, Academic Press, Elsevier, Dec. 2015, Ch 19, pp. 519-547.

[Book Chapter 3] H. Wang and A. Hajimiri, “CMOS magnetic biosensing technology for Point-of-Care (PoC) molecular-level diagnosis application,” Low Power Emerging Wireless Technologies (Devices, Circuits, and Systems), CRC Press, Taylor and Francis Group, 2013, Ch 14, pp. 333-360.

[Book Chapter 4] H. Wang and A. Hajimiri, “CMOS magnetic biosensing technology for Point-of-Care (PoC) molecular-level diagnosis application,”Integrated Microsystems: Electronics, Photonics, and Biotechnology (Devices, Circuits, and Systems), CRC Press, Taylor and Francis Group, 2011, Ch 5, pp. 109-132.          
                               

 

JOURNAL  PUBLICATIONS

[J-1] S. Li, T. Chi, T. Huang, D. Jung, M. Huang, and H. Wang, "A Buffer-Less Wideband Frequency Doubler in 45nm CMOS-SOI with Transistor Multi-Port Waveform Shaping Achieving 25% Drain Efficiency and 46-89GHz Instantaneous Bandwidth," IEEE Solid-State Circuits Lett., vol. 2, no. 4, pp. 25 - 28, Apr. 2019.

[J-2] S. Hu, F. Wang, and H. Wang, "A 28/37/39-GHz Linear Doherty Power Amplifier in Silicon for 5G Applications," IEEE J. of Solid-State Circuits, vol. 54, no. 6, pp. 1586 - 1599, Jun. 2019.

[J-3] S. Li, T. Chi, J. Park, H. Nguyen, and H. Wang, "A 28GHz Flip-Chip Packaged Chireix Transmitter with On-Antenna Outphasing Active Load Modulation," IEEE J. of Solid-State Circuits, vol. 54, no. 5, pp. 1243 - 1253, May 2019.

[J-4] T. Li and H. Wang, "Millimeter-Wave Continuous-Mode Power Amplifier for 5G MIMO Applications," IEEE Trans. Microw. Theory. Tech (Early Access), 2019. --- IEEE T-MTT Special Issue on 5G Hardware and System Technologies

[J-5] M. Huang, T. Chi, F. Wang, T. Li, and H. Wang, "A Full-FoV Autonomous Hybrid Beamformer Array with Unknown Blockers Rejection and Signals Tracking for Low-Latency 5G Mm-Wave Links," IEEE Trans. Microw. Theory. Tech (Early Access), 2019. --- IEEE T-MTT Special Issue on 5G Hardware and System Technologies

[J-6] D. Jung, H. Zhao, and H. Wang, "A CMOS Highly Linear Doherty Power Amplifier with Multigated Transistors," IEEE Trans. Microw. Theory. Tech, vol. 67, no. 5, pp. 1883 - 1891, May 2019.

[J-7] F. Wang and H. Wang, "A Noise Circulating Oscillator," IEEE J. of Solid-State Circuits, vol. 54, no. 3, pp. 696 - 708, Mar. 2019.

[J-8] A. Wang, D. Jung, J. Park, G. Junek, and H. Wang, "Electrode-Electrolyte Interface Impedance Characterization of Ultra-Miniaturized Microelectrode Arrays over Materials and Geometries for Sub-Cellular and Cellular Sensing and Stimulation,” IEEE Transactions on NanoBioscience (TNB) EMBS special issue, vol. 18, no. 2, pp. 248 - 252, Apr. 2019.

[J-9] M. Nosrati, S. Shahsavari, S. Lee, H. Wang and N. Tavassolian, "A Concurrent Dual-Beam Phased-Array Doppler Radar Using MIMO Beamforming Techniques for Short-Range Vital-Signs Monitoring," IEEE Trans. Antennas Propag, vol. 67, no. 4, pp. 2390 - 2404, Apr. 2019.

[J-10] A. M.-Sabzevari, S. Li, E. Garay, H. Nguyen, H. Wang, and N. Tavassolian, “Synthetic Ultra-High-Resolution Millimeter-Wave Imaging for Skin Cancer Detection,” IEEE Trans. Biomedical Engineering (TBME), vol. 66, no. 1, pp. 61 - 71, Jan. 2019.

[J-11] T. Chi, J. Park, S. Li, and H. Wang, "A Millimeter-Wave Polarization-Division-Duplex Transceiver Front-End with An On-Chip Multifeed Self-Interference-Canceling Antenna and An All-Passive Reconfigurable Canceler," IEEE J. of Solid-State Circuits, vol. 53, no. 12, pp. 3628 - 3639, Dec. 2018.

[J-12] H. Nguyen, T. Chi, S. Li, and H. Wang, "A Linear High-Efficiency Millimeter-Wave CMOS Doherty Radiator Leveraging Multi-Feed On-Antenna Active Load-Modulation," IEEE J. of Solid-State Circuits, vol. 53, no. 12, pp. 3587 - 3598, Dec. 2018.

[J-13] J. Park, S. I. Grijalva, M. K. Aziz, T. Chi, S. Li, M. N. Sayegh, A. Wang, H. Cho and H. Wang, "Multi-parametric cell profiling with a CMOS quadmodality cellular interfacing array for label-free fully automated drug screening," Lab Chip, vol. 18, pp. 3037-3050, 2018.

[J-14] E. Hardy, Y. Wang, S. Iyer, R. Mannino, Y. Sakurai, T. Barker, T. Chi, Y. Youn, H. Wang, A. Brown, W. Lam, "Interdigitated microelectronic bandage augments hemostasis and clot formation at low applied voltage in vitro and in vivo," Lab Chip, vol. 18, pp. 2985-2993, 2018.

[J-15] A. Mirbeik-Sabzevari, S. Li, E. Garay, H. T. Nguyen, H. Wang, and N. Tavassolian, "W-Band Micromachined Antipodal Vivaldi Antenna Using SIW and CPW Structures," IEEE Trans. Antennas Propag., vol. 66, no. 11, pp. 6352 - 6357, Nov. 2018.

[J-16] J. Park, Y. Wang, S. Pellerano, C. Hull, and H. Wang, “A CMOS Wideband Current-Mode Digital Polar Power Amplifier with Built-In AM-PM Distortion Self-Compensation,” IEEE J. of Solid-State Circuits, vol. 53, no. 2, pp. 340 - 356, Feb. 2018.

[J-17] H. Wang, F. Dai, and H. Wang, “A Reconfigurable Vernier Time-to-Digital Converter with 2-D Spiral Comparator Array and 2nd-Order ΔΣ Linearization,” IEEE J. of Solid-State Circuits, vol. 53, no. 3, pp. 738 - 749, Mar. 2018.

[J-18] J. Park, M. K. Aziz, S. Li, T. Chi, S. I. Grijalva, J. Sung, H. Cho, and H. Wang, “1024-Pixel CMOS Multi-Modality Joint Cellular Sensor/Stimulator Array for Real-Time Holistic Cellular Characterization and Cell-Based Drug Screening,” IEEE Trans. Biomed. Circuits Syst., vol. 12, no. 1, pp. 80 - 94, Nov. 2017.

[J-19] T. Chi, S. Li, J. Park, and H. Wang, “A Multi-Feed Antenna for High-Efficiency On-Antenna Power Combining,” IEEE Trans. Antennas Propag., vol. 65, no. 12, pp. 6937 - 6951, Dec. 2017.

[J-20] T. Li and H. Wang, “A Millimeter-Wave Fully Integrated Passive Reflection-Type Phase Shifter with Transformer-Based Multi-Resonance Loads for 360 Phase Shifting,” IEEE Transactions on Circuits and Systems I: Regular Papers, vol. 65, no. 4, pp. 1406 - 1419, Nov. 2017.

[J-21] S. Li, T. Chi, and H. Wang, “A Millimeter-Wave Dual-Feed Square Loop Antenna for 5G Communications,” IEEE Trans. Antennas Propag., vol. 65, no. 12, pp. 6317 - 6328, Dec. 2017. --- IEEE T-AP December 2017 Special Issue on “Antennas and Propagation Aspects of 5G Communications."

[J-22] S. Hu, S. Kousai, and H. Wang, “A Compact Broadband Mixed-Signal Power Amplifier in Bulk CMOS with Hybrid Class-G and Dynamic Load Trajectory Manipulation,” IEEE J. of Solid-State Circuits, vol. 52, no. 6, pp. 1463 - 1478, Jun. 2017.

[J-23] M. Huang, T. Chi, F. Wang, and H. Wang, “An All-Passive Negative Feedback Network for Broadband and Wide Field-of-View Self-Steering Beam-Forming with Zero DC Power Consumption,” IEEE J. of Solid-State Circuits, vol. 52, no. 5, pp. 1260 - 1273, May 2017.

[J-24] J. Park, S. Hu, Y. Wang, and H. Wang, “A Highly Linear Dual-Band Mixed-Mode Polar Power Amplifier in CMOS with An Ultra-Compact Output Network,” IEEE J. of Solid-State Circuits, vol. 51, no. 8, pp. 1756 - 1770, Aug. 2016.

[J-25] M. Zia, T. Chi, J. Park, A. Su, J. L. Gonzalez, P. K. Jo, M. P. Styczynski, H. Wang, and M. S. Bakir, “A 3D Integrated Electronic Microplate Platform for Lowcost Repeatable Biosensing Applications,” IEEE Trans. Compon., Packag., Manuf. Technol., vol. 6, no. 12, pp. 1827 - 1833, Dec. 2016.

[J-26] J. Park and H. Wang, “A Fully Differential Ultra-Compact Broadband Transformer-Based Wilkinson Power Divider,” IEEE Microw. Wireless Compon. Lett., vol. 26, no. 4, pp. 255 - 257, Apr. 2016.

[J-27] S. Hu, S. Kousai, and H. Wang, “A Broadband Mixed-Signal CMOS Power Amplifier with A Hybrid Class-G Doherty Efficiency Enhancement Technique,” IEEE J. of Solid-State Circuits, vol. 51, no. 3, pp. 598 - 613, Mar. 2016.

[J-28] T. Chi, J. S. Park, J. C. Butts, T. A. Hookway, A. Su, C. Zhu, M. P. Styczynski, T. C. McDevitt, and H. Wang, “A Multi-Modality CMOS Sensor Array for Cell-Based Assay and Drug Screening,” IEEE Trans. Biomed. Circuits Syst., vol. 9, no. 6, pp. 801-814, Dec. 2015.

[J-29] J. Park and H. Wang, “A Transformer-Based Poly-Phase Network for Ultra-Broadband Quadrature Signal Generation,” IEEE Trans. Microw. Theory. Tech, vol. 63, no. 12, pp. 4444 - 4457, Dec. 2015.

[J-30] H. Wang, S. Kousai, K. Onizuka, S. Hu, “The Wireless Workhorse: Mixed-Signal Power Amplifiers Leverage Digital and Analog Techniques to Enhance Large-Signal RF Operations,” IEEE Microwave Magazine, vol 16, no. 9, pp. 36-63, Oct. 2015. --- 2016 IEEE MTT-S Microwave Magazine Best Paper Award.

[J-31] S. Hu, S. Kousai, and H. Wang, “Antenna Impedance Variation Compensation By Exploiting A Digital Doherty Power Amplifier Architecture,” IEEE Trans. Microw. Theory. Tech, vol. 63, no. 2, pp. 580-597, Feb. 2015.

[J-32] T. Chi, J. Luo, S. Hu, and H. Wang, “A Multi-Phase Sub-Harmonic Injection Locking Technique for Bandwidth Extension in Silicon-Based THz Signal Generation,” IEEE J. of Solid-State Circuits, vol. 50, no. 8, pp. 1861 - 1873, Aug. 2015.

[J-33] S. Hu, S. Kousai, J. Park, O. Chlieh, and H. Wang, “Design of A Transformer-Based Reconfigurable Digital Polar
Doherty Power Amplifier Fully Integrated in Bulk CMOS
,” IEEE J. of Solid-State Circuits, vol. 50, no. 5, pp. 1094 – 1106, May 2015.

[J-34] H. Wang, “Magnetic Sensors for Diagnostic Medicine: CMOS-Based Magnetic Particle Detectors for Medical Diagnosis Applications,” IEEE Microwave Magazine, vol. 14, no. 5, pp. 110-130, Jul/Aug 2013.

[J-35] A. Pai, A. Khachaturian, S. Chapman, A. Hu, H. Wang, and A, Hajimiri, “A Handheld Magnetic Sensing Platform for Antigen and Nucleic Acid Detection,” Analyst, vol. 139, pp. 1403 – 1411, Dec. 2013.

[J-36] H. Wang, C-C. Weng, and A. Hajimiri, “Phase Noise and Fundamental Sensitivity of Oscillator-Based Reactance Sensors,” IEEE Trans. Microw. Theory. Tech, vol. 61, no. 5, pp. 2215-2229, May 2013.

[J-37] H. Wang, A. Mohdavi, D. Tirrell, and A. Hajimiri, “A Magnetic Cell-Based Sensor,” Lab Chip, vol. 12, pp. 4465-4471, 2012.

[J-38] Y. Wang, H. Wang, C. Hull, and S. Ravid, “A Transformer-Based Broadband Front-end Combo in Standard CMOS," IEEE J. of Solid-State Circuits, vol. 47, no. 8, pp. 1810 – 1819, Aug. 2012.

-------- Before Georgia Tech --------

[J-39] H. Wang, C. Sideris, and A. Hajimiri, “A CMOS Broadband Power Amplifier With a Transformer-Based High-Order Output Matching Network,” IEEE J. of Solid-State Circuits, vol. 45, no. 12, pp. 2709 – 2722, Dec. 2010.
 
[J-40] S. Jeon, Y.-J. Wang, H. Wang, F. Bohn, A. Natarajan, A. Babakhani, and A. Hajimiri, “A Scalable 6-to-18GHz Concurrent Dual-Band Quad-Beam Phased-Array Receiver in CMOS,” IEEE J. of Solid-State Circuits, vol. 43, no. 12, pp. 2660-2673, Dec. 2008.

 

PEER REVIEWED CONFERENCE  PUBLICATIONS

[C-1] D. Jung, J. Park, G. Junek, S. Grijalva, S. Kumashi, A. Wang, S. Li, H. Cho, H. Wang, "A 21952-Pixel Multi-Modal CMOS Cellular Sensor Array with 1568-Pixel Parallel Recording and 4-Point Impedance Sensing," to appear in Proc. IEEE VLSI Tech. Cir. Symp., June 2019. --- “Technical Tip Sheet” of 2019 VLSI symposium to highlight the technical trends and exemplary papers of the conference.

[C-2] S. Lee, M. E.D. Smith, S. Li, and H. Wang, "An Ultra-Wideband Edge-Fed Octagonal Four-Arm Archimedean Spiral Antenna," to appear in Proc. Proc. IEEE AP-S/URSI, June 2019.

[C-3] H. Nguyen and H. Wang, "A Coupler-Based Differential Doherty Power Amplifier with Built-In Baluns for High Mm-Wave Linear-Yet-Efficient Gbit/s Amplifications," to appear in Proc. IEEE Radio Frequency Integrated Circuits (RFIC), Jun. 2019. --- 2019 IEEE RFIC Conference Best Student Paper Award finalist.

[C-4] M. Huang, T. Chi, T. Huang, S. Li, F. Wang and H. Wang, "A 24.5-43.5GHz Compact RX with Calibration-Free 32-56dB Full-Frequency Instantaneously Wideband Image Rejection Supporting Multi-Gb/s 64-QAM/256-QAM for Multi-Band 5G Massive MIMO," to appear in Proc. IEEE Radio Frequency Integrated Circuits (RFIC), Jun. 2019. --- 2019 IEEE RFIC Conference Best Student Paper Award finalist.

[C-5] H. Wang, F. Wang, T. Li, H. Nguyen, S. Li, and T. Huang, "Broadband, Linear, and High-Efficiency Mm-Wave PAs in Silicon --- Overcoming Device Limitations by Architecture/Circuit Innovations," to appear in Proc. IEEE International Microwave Symposium (IMS), Jun. 2019.

[C-6] S. Lee, M. Huang, Y. Youn, and H. Wang, "A 15 – 55 GHz Low-Loss Ultra-Compact Folded Inductor-Based Multi-Section Wilkinson Power Divider for Multi-Band 5G Applications," to appear in Proc. IEEE International Microwave Symposium (IMS), Jun. 2019.

[C-7] M. Huang, T. Huang, M. Swaminathan, and H. Wang, "Ultra-Compact Concurrent Multi-Directional Beamforming Receiving Network for Full-FoV High-Efficiency Wireless Power Transfer," to appear in Proc. IEEE International Microwave Symposium (IMS), Jun. 2019.

[C-8] D. Jung, J. Park, S. Li, T. Huang, H. Zhao, and H. Wang, "A 1.2V Single Supply Hybrid Current-/Voltage-Mode Three-Way Digital Doherty PA with Built-In Large-Signal Phase Compensation Achieving Less-Than 5° AM-PM," Proc. IEEE Custom Integrated Circuits Conference (CICC), Apr. 2019. --- 2019 IEEE CICC Conference Best Student Paper Award.

[C-9] T. Yang, M. Huang, Y. Chen, P, Peng, H. Wang and G. Chang, “A 4-channel Beamformer for 9-Gb/s MMW 5G Fixed-wireless Access over 25-km SMF with Bit-loading OFDM,” to appear in Proc. Optical Fiber Communication Conference (OFC), March. 2019.

[C-10] M. Huang and H. Wang, "A Wideband 27-41GHz N-Input-N-Output MIMO Receiver Using Scalable Cascadable Autonomous Array-Based High-Order Spatial Filters for Instinctual Full-FoV Multi-Blocker Suppression and Signal Beamforming," to appear in Proc. the Government Microcircuit Applications and Critical Technology Conference (GOMACTech), Mar. 2019.

[C-11] F. Wang and H. Wang, "A Highly Linear Super-Resolution Mixed-Signal Doherty Power Amplifier for High-Efficiency Multi-Gbit/s Mm-Wave 5G Communication," IEEE International Solid-State Circuits Conference (ISSCC) Dig. Tech. Papers, Feb. 2019.

[C-12] M. Huang and H. Wang, "A 27-41GHz MIMO Receiver with N-Input-N-Output Using Scalable Cascadable Autonomous Array-Based High-Order Spatial Filters for Instinctual Full-FoV Multi-Blocker/Signal Management," IEEE International Solid-State Circuits Conference (ISSCC) Dig. Tech. Papers, Feb. 2019.

[C-13] H. Nguyen and H. Wang, "A 60GHz CMOS Power Amplifier with Cascaded Asymmetric Distributed-Active-Transformer Achieving 1 Watt Peak Output Power with 20.8% PAE and Supporting 2Gsym/s 64-QAM Modulation," IEEE International Solid-State Circuits Conference (ISSCC) Dig. Tech. Papers, Feb. 2019.

[C-14] H. Nguyen and H. Wang, "A Mm-Wave 3-Way Linear Doherty Radiator with Multi-Antenna-Electronics Coupling and On-Antenna Current-Scaling Series Combiner for Deep Power Back-Off Efficiency Enhancement," IEEE International Solid-State Circuits Conference (ISSCC) Dig. Tech. Papers, Feb. 2019.

[C-15] S. Zeinolabedinzadeh, C Ulusoy, R. Schmid, F. Inanlou, I. Song, T. Chi, J. Park, H. Wang, and J. Cressler, "A W-Band SiGe Transceiver with Built-in Self-Test,” Proc. IEEE SiRF, Jan 2019.

[C-16] A. Wang, D. Jung, J. Park, G. Junek, and H. Wang, "Electrode-Electrolyte Interface Impedance Characterization of Ultra-Miniaturized Microelectrode Arrays over Materials and Geometries for Sub-Cellular and Cellular Sensing and Stimulation,” Proc. IEEE EMBS Micro and Nanoengineering in Medicine Conference (MNM), Dec 2018.

[C-17] A. Wang, J. Park, D. Jung, G. Junek, and H. Wang, "Enabling AI-Assisted Drug Screening and Synthetic Biology Engineering: Multi-Parametric Data-Driven Cell Profiling by CMOS Multi-Modal Cellular Interfacing Arrays,” Proc. Association for the Advancement of Artificial Intelligence (AAAI) Fall Symposium: Artificial Intelligence for Syntheic Biology, Oct 2018.

[C-18] S. Li, T. Chi, T. Huang, H. Nguyen, and H. Wang, "A 28GHz Packaged Chireix Transmitter with Direct On-Antenna Outphasing Load Modulation Achieving 56%/38% PA Efficiency at Peak/6dB Back-Off Output Power,” Proc. IEEE Radio Frequency Integrated Circuits (RFIC), May 2018. --- 2018 RFIC Best Student Paper Award (2nd Place).

[C-19] T. Li and H. Wang, "A Continuous-Mode 23.5-41GHz Hybrid Class-F/F-1 Power Amplifier with 46% Peak PAE for 5G Massive MIMO Applications,” Proc. IEEE Radio Frequency Integrated Circuits (RFIC), May 2018.

[C-20] S. Li, T. Chi, H. Nguyen, and H. Wang, "Performance of V-Band On-Chip Antennas in GlobalFoundries 45nm CMOS SOI Process for Mm-Wave 5G Applications," Proc. IEEE International Microwave Symposium (IMS), Jun. 2018.

[C-21] D. Jung, H. Zhao, and H. Wang, "A Highly Linear Doherty Power Amplifier with Multigated Transistors Supporting 80MSymbol/s 256-QAM,"Proc. IEEE International Microwave Symposium (IMS), Jun. 2018.

[C-22] E. Garay, M. Huang, and H. Wang, "A Cascaded Self-Similar Rat-Race Hybrid Coupler Architecture and its Compact Fully Integrated Ka-band Implementation," Proc. IEEE International Microwave Symposium (IMS), Jun. 2018.

[C-23] M. Aziz, E. Garay, M. Huang, S. Li, and H. Wang, "An Ultra-Compact Folded Inductor Based Wideband Gysel Power Divider for Multi-Band 5G Applications," Proc. IEEE International Microwave Symposium (IMS), Jun. 2018.

[C-24] M. Huang and H. Wang, "Scalable Wideband Hybrid Beam-Forming MIMO Receiver Array with Multi-Stage Closed-Loop Beam-Formers for Full-FoV Dynamic and Autonomous Unknown Blocker Rejection and Signal Tracking," Proc. the Government Microcircuit Applications and Critical Technology Conference (GOMACTech), Mar. 2018.

[C-25] T. Chi, J. Park, S. Li, and H. Wang, "A Mm-Wave Full-Duplex Transceiver Front-End with an On-Chip Multi-feed Self-Interference-Cancelling Antenna and an All-Passive Canceler," Proc. the Government Microcircuit Applications and Critical Technology Conference (GOMACTech), Mar. 2018.

[C-26] H. Nguyen and H. Wang, "A 62-68GHz Multi-Feed Antenna-Based CMOS Doherty Radiator Achieving 27.5%/20.1% PAE at Peak/6dB Back-Off Output Power and 20.2% Average PAE for 6Gb/s 64-QAM Modulation," Proc. the Government Microcircuit Applications and Critical Technology Conference (GOMACTech), Mar. 2018.

[C-27] F. Wang and H. Wang, "A Noise Circulating Cross-Coupled VCO with A 195.6dBc/Hz FoM and 50kHz 1/f3 Noise Corner," Proc. IEEE Custom Integrated Circuits Conference (CICC), Apr. 2018. --- 2018 IEEE CICC Conference Best Student Paper Award.

[C-28] M. Huang, T. Chi, F. Wang, T. Li, and H. Wang, "A 23-to-30GHz Hybrid Beamforming MIMO Receiver Array with Closed-Loop Multistage Front-End Beamformers for Full-FoV Dynamic and Autonomous Unknown Signal Tracking and Blocker Rejection," IEEE International Solid-State Circuits Conference (ISSCC) Dig. Tech. Papers, Feb. 2018.

[C-29] T. Li, M. Huang, and H. Wang, "A Continuous-Mode Harmonically-Tuned 19-to-29.5GHz Ultra-Linear PA Supporting 18Gbit/s at 18.4% Modulation PAE and 43.5% Peak PAE," IEEE International Solid-State Circuits Conference (ISSCC) Dig. Tech. Papers, Feb. 2018.

[C-30] H. Nguyen, TChi, S. Li, and Hua Wang, "A 62-to-68GHz linear 6Gb/s 64-QAM CMOS Doherty radiator with 27.5%/20.1% PAE at peak/6dB back-off output power leveraging high-efficiency multi-feed antenna-based active load modulation," IEEE International Solid-State Circuits Conference (ISSCC) Dig. Tech. Papers, Feb. 2018.

[C-31] T. Chi, J. Park, S. Li, and H. Wang, "A 64GHz Full-Duplex Transceiver Front-End with An On-Chip Multi-Feed Self-Interference-Cancelling Antenna and An All-Passive Canceler Supporting 4Gb/s Modulation in One Antenna Footprint," IEEE International Solid-State Circuits Conference (ISSCC) Dig. Tech. Papers, Feb. 2018.

[C-32] H. Wang, S. Hu, T. Chi, F. Wang, S. Li, M. Huang, and J. Park, "Towards Energy-Efficient 5G Mm-Wave Links: Exploiting Broadband Mm-Wave Doherty Power Amplifier and Multi-Feed Antenna with Direct On-Antenna Power Combining (Invited),” Proc. IEEE Bipolar/BiCMOS Circuits and Technology Meeting (BCTM), Sep. 2017.

[C-33] C. Li, M. Wang, T. Chi, A. Kumar, M. Boenke, D. Wang, N. Cahoon, A. Bandyopadhyay, A. Joseph, H. Wang, "5G Mm-Wave Front-End-Module Design with Advanced SOI Process (Invited),” Proc. 12th IEEE International Conference on ASIC (ASICON), Oct. 2017.

[C-34] A. Peterson, H. Wang, M. Tentzeris, G. Li, I. Akyildi, "Addressing the Challenges of 5G Systems: Research at the Georgia Institute of Technology (Invited),” Proc. IEEE AP-S/URSI, June 2017.

[C-35] T. Chi, H. Wang, M. Huang, F. Dai, and H. Wang, "A Bidirectional Lens-Free Digital-Bits-In/-Out 0.57mm2 Terahertz
Nano-Radio in CMOS with 49.3mW Peak Power Consumption Supporting 50cm Internet-of-Things Communication,” Proc. IEEE Custom Integrated Circuits Conference (CICC), May 2017. --- 2017 IEEE CICC Conference Best Paper Award (top 1 paper among all the paper categories).

[C-36] J. Park, M. K. Aziz, S. Gonzalez, D. Jung, T. Chi, S. Li, H. C. Cho, H. Wang, "A CMOS 22k-Pixel Single-Cell Resolution Multi-Modality Real-Time Cellular Sensing Array,” Proc. IEEE Custom Integrated Circuits Conference (CICC), May 2017.

[C-37] H. Wang, F. Dai, H. Wang, "A 330μW 1.25ps 400fs-INL Vernier Time-to-Digital Converter with 2D Reconfigurable Spiral Arbiter Array and 2nd-Order ΔΣ Linearization,” Proc. IEEE Custom Integrated Circuits Conference (CICC), May 2017.

[C-38] C. Li, M. Wang, T. Chi, A. Kumar, M. Boenke, N. Cahoon, A. Bandyopadhyay, A. Joseph, H. Wang, "A High-Efficiency 5G K/Ka  band Stacked Power Amplifier in 45nm CMOS SOI Process Supporting 9Gb/s 64 QAM Modulation with 22.4% Average PAE," Proc. IEEE Texas Symposium on Wireless and Microwave Circuits and Systems (WMCS), Mar. 2017.

[C-39] T. Chi, M. Huang, S. Li, H. Wang, "A Packaged 90-to-300GHz Transmitter and 115-to-325GHz Coherent Receiver in CMOS for Full-Band Continuous-Wave Mm-Wave Hyperspectral Imaging,” IEEE International Solid-State Circuits Conference (ISSCC) Dig. Tech. Papers, Feb. 2017.

[C-40] S. Hu, F. Wang, and H. Wang, "A 28GHz/37GHz/39GHz Multiband Linear Doherty Power Amplifier for 5G Massive MIMO Applications,” IEEE International Solid-State Circuits Conference (ISSCC) Dig. Tech. Papers, Feb. 2017.

[C-41] J. Park, Y. Wang, S. Pellerano, C. Hull, H. Wang, "A 24dBm 2-to-4.3GHz Wideband Digital Power Amplifier with Built-In AM-PM Distortion Self-Compensation,” IEEE International Solid-State Circuits Conference (ISSCC) Dig. Tech. Papers, Feb. 2017.

[C-42] T. Chi, F. Wang, S. Li, M. Huang, J. Park, and H. Wang, "A 60GHz On-Chip Linear Radiator with Single-Element 27.9dBm Psat and 33.1dBm Peak EIRP Using Multi-Feed Antenna for Direct On-Antenna Power Combining,” IEEE International Solid-State Circuits Conference (ISSCC) Dig. Tech. Papers, Feb. 2017.

[C-43] M. Huang and H. Wang, "An All-Passive Negative Feedback Network for Broadband and Full Field-of-View Self-Steering Beam-Forming with Zero DC Power Consumption,” Proc. the Government Microcircuit Applications and Critical Technology Conference (GOMACTech), Mar. 2017.

[C-44] E. Garay, M. Huang, and H. Wang, "A Cascaded Rat-Race Hybrid Coupler Architecture and its Compact Ka-band Implementation,” Proc. the Government Microcircuit Applications and Critical Technology Conference (GOMACTech), Mar. 2017.

[C-45] J. Park, M. K. Aziz, T. Chi, A. Su, A. Zhao, H. C. Cho, M. Styczynski, and H. Wang, "Live Demonstration: A 1024-pixel CMOS Multi-Modality Sensing Array for Cell-Based Assays," Proc. IEEE SENSORS, Oct. 2016. --- This paper won the 2016 IEEE SENSORS Conference Best Live Demo Award (2nd Place).

[C-46] J. Park, T. Chi, A. Su, C. Zhu, J. H. Sung, H. C. Cho, M. Styczynski, and H. Wang, "An High-Density CMOS Multi-Modality Joint Sensor/Stimulator Array with 1024 Pixels for Holistic Real-Time Cellular Characterization," Proc. IEEE VLSI Tech. Cir. Symp., June 2016.

[C-47] S. Li, T. Chi, J. Park, and H. Wang, "A Multi-Feed Antenna for Antenna-Level Power Combining," Proc. IEEE AP-S/URSI, June 2016.

[C-48] M. Huang, T. Chi, and H. Wang, "A 5GHz All-Passive Negative Feedback Network for RF Front-End
Self-Steering Beam-Forming with Zero DC Power Consumption
,” Proc. IEEE Radio Frequency Integrated Circuits (RFIC), May 2016. --- This paper won the 2016 RFIC Best Student Paper Award (2nd Place).

[C-49] S. Hu, F. Wang, and H. Wang, "A Transformer-Based Inverted Complementary Cross-Coupled VCO with a 193.3dBc/Hz FoM and 13kHz 1/f3 Noise Corner,” Proc. IEEE Radio Frequency Integrated Circuits (RFIC), May 2016.

[C-50] S. Hu, S. Kousai, and H. Wang, "A Compact Broadband Mixed-Signal Power Amplifier in Bulk CMOS with Hybrid Class-G and Dynamic Load Trajectory Manipulation Operations,” Proc. IEEE Radio Frequency Integrated Circuits (RFIC), May 2016.

[C-51] H. Wang, S. Hu, and S. Kousai, "Mixed-Signal Doherty Power Amplifiers in CMOS,” (invited) Proc. IEEE International Microwave Symposium (IMS), May 2016.

[C-52] S. Li, T. Chi, J. Park, W. Tanveer, H. Wang, and J. Papapolymerou, "A Fully Packaged D-Band MIMO Transmitter Using High-Density Flip-Chip Interconnects on A Flexible LCP Substrate,” Proc. IEEE International Microwave Symposium (IMS), May 2016.

[C-53] M. Huang and H. Wang, "An Ultra-Compact Folded Inductor Based Mm-Wave Rat-Race Coupler in CMOS,” Proc. IEEE International Microwave Symposium (IMS), May 2016.

[C-54] F. Wang and H. Wang, "An N-Way Transformer Based Wilkinson Power Divider in CMOS,” Proc. IEEE International Microwave Symposium (IMS), May 2016.

[C-55] F. Wang and H. Wang, "A Broadband Low-Loss Compact 4×4 Butler Matrix in CMOS with Stacked Transformer Based Quadrature Couplers,” Proc. IEEE International Microwave Symposium (IMS), May 2016.

[C-56] T. Chi and H. Wang, "A Scalable Active THz Frequency Multiplier Chain in Silicon with Multi-Phase Sub-Harmonic Injection Locking for Bandwidth Extension,” (invited) Proc. IEEE Asia-Pacific Microwave Conference (APMC), Dec. 2015.

[C-57] S. Hu and H. Wang, "A Hybrid Technique for PA Back-Off Efficiency Enhancement - A Broadband Mixed-Signal Class-G Doherty PA in CMOS,” (invited) Proc. 2015 IEEE Power Amplifier Symposium, Sep. 2015.

[C-58] M. Zia, T. Chi, C. Zhang, P. Thadesar, T. Hookway, J. Gonzalez, T. McDevitt, H. Wang, and M. S. Bakir, “A Microfabricated Electronic Microplate Platform for Low-cost Repeatable Bio-sensing Applications,” Proc. IEEE International Electron Devices Meeting (IEDM), Dec. 2015.

[C-59] M. Zia, C. Zhang, P. Thadesar, T. Hookway, T. Chi, J. Gonzalez, T. McDevitt, H. Wang,  and M. S. Bakir, “Fabrication of and Cell Growth on ‘Silicon Membranes’ with High Density TSVs for Bio-sensing Applications,” Proc. IEEE Biomedical Circuits and Systems Conference (BioCAS), Oct. 2015.

[C-60] J. S. Park, T. Chi, A. Su, C. Zhu, J. Butts, T. Hookway, T. McDevitt, M. Styczynski, and H. Wang, “Live Demonstration: A Multi-Modality CMOS Sensor Array for Cell-Based Assay and Drug Screening,” Proc. IEEE Biomedical Circuits and Systems Conference (BioCAS), Oct. 2015.

[C-61] J. Park, S. Hu, Y. Wang, and H. Wang, "A Highly Linear Dual-Band Mixed-Mode Polar Power Amplifier in CMOS with An Ultra-Compact Output Network,” Proc. IEEE Custom Integrated Circuits Conference (CICC), Sep. 2015. --- This paper won the 2015 CICC Best Student Paper Award.

[C-62] T. Li., J. Park, and H. Wang, "A 2-24GHz 360-Degree Full-Span Differential Vector Modulator Phase Rotator with Transformer-Based Poly-Phase Quadrature Network,” Proc. IEEE Custom Integrated Circuits Conference (CICC), Sep. 2015. --- 2015 CICC Best Student Paper Award Finalist.

[C-63] T. Li and H. Wang, "A Millimeter-Wave Fully Differential Transformer-Based Passive Reflective-Type Phase Shifter,” Proc. IEEE Custom Integrated Circuits Conference (CICC), Sep. 2015.

[C-64] Y. Wang, E. Hardy, T. Chi, M. Huang, H. Wang, A. Brown, T. Barker, W. A. Lam, "Electrical-Wound Dressing Demonstrates That Low-Voltages Augment Hemostasis and Clot Formation,” Proc. BMES 2015 Annual Meeting, Tampa.

[C-65] J. Park, T. Chi, J. Butts, T. Hookway, T. C. McDevitt, and H. Wang, "A Multi-Modality CMOS Sensor Array for Cell-Based Assay and Drug Screening,” IEEE International Solid-State Circuits Conference (ISSCC) Dig. Tech. Papers, Feb. 2015.

[C-66] S. Hu, S. Kousai, and H. Wang, "A Broadband CMOS Digital Power Amplifier with Hybrid Class-G Doherty Efficiency Enhancement,” IEEE International Solid-State Circuits Conference (ISSCC) Dig. Tech. Papers, Feb. 2015.

[C-67] T. Chi, J. Papapolymerou, and H. Wang, “A +2.3dBm 124-158GHz Class-C Frequency Quadrupler with Folded-Transformer Based Multi-Phase Driving,” Proc. IEEE Radio Frequency Integrated Circuits (RFIC), May 2015.

[C-68] J. Park and H. Wang, "A Transformer-Based Poly-Phase Network for Ultra-Broadband Quadrature Signal Generation,” Proc. IEEE MTT-S Int. Microwave Symp. (IMS), May 2015.

[C-69] W. T. Khan, A. C. Ulusoy, R. Schmid, T. Chi, J. D. Cressler, H. Wang, J. Papapolymerou, "A D-band (110 to 170 GHz) SPDT Switch in 32 nm CMOS SOI,” Proc. IEEE MTT-S Int. Microwave Symp. (IMS), May 2015.

[C-70] S. Hu and H. Wang, "A Digital-Intensive Highly-Reconfigurable CMOS Doherty Power Amplifier Resilient to Antenna Mismatch,” Proc. the Government Microcircuit Applications and Critical Technology Conference (GOMACTech), Mar. 2015.

[C-71] S. Lepkowski, J. Park, T. Chi, and H. Wang, "A Transformer Based Ultra-Compact 8×8 Mm-Wave Butler Matrix Fully Integrated in 65nm Bulk CMOS,” Proc. the Government Microcircuit Applications and Critical Technology Conference (GOMACTech), Mar. 2015.

[C-72] T-W Li, J. Park, and H. Wang, "An Ultra-broadband 360° Full-Span Transformer-Based Differential Vector Modulator Phase Rotator In CMOS,” Proc. the Government Microcircuit Applications and Critical Technology Conference (GOMACTech), Mar. 2015.

[C-73] H. Wang and S. Hu, "Enhancing Doherty Power Amplifier Operation by A Digitally Reconfigurable Architecture,” Proc. 2014 Power Amplifier Symposium (invited), Sep. 2014.

[C-74] T. Chi, J. Luo, S. Hu and H. Wang, "A Multi-Phase Sub-Harmonic Injection Locking Technique for Bandwidth Extension in Silicon-Based THz Signal Generation,” Proc. IEEE Custom Integrated Circuits Conference (CICC), Sep. 2014. --- 2014 CICC Best Student Paper Award Finalist.

[C-75] S. Kousai, K. Onizuka, S. Hu, H. Wang and A. Hajimiri, "A New Wave of CMOS Power Amplifier Innovations: Fusing Digital and Analog Techniques with Large Signal RF Operations,” Proc. the IEEE Custom Integrated Circuits Conference (CICC) (Invited), Sep. 2014.

[C-76] H. Wang, A. Mohadavi, J. Park, T. Chi, J. Butts, T. A. Hookway, T. McDevitt, D. A. Tirrell, A. Hajimiri, "Cell Culture and Cell Based Sensors on CMOS,” Proc. the IEEE Biomedical Circuits and Systems Conference (BioCAS) (Invited), Oct. 2014.

[C-77] A. Chatterjee, H. Wang, A. Banerjee, D. Banerjee, V. Natarajan, S. Sen and S. Devarakond, "Design of Self-Healing Mixed-Signal/RF Systems and Support CAD Tools: a Scalable Approach,” Proc. IEEE International Midwest Symposium on Circuits and Systems (MWSCAS) (invited), Aug. 2014.

[C-78] C. Kim, C. Zhu, J. Zhang, and H. Wang, "A Reconfigurable Bio-Impedance Sensing Platform With Array-Based Detection Algorithm for 3D Tissue Characterization and Delineation,” Proc. BMES 2014 Annual Meeting, San Antonio, Texas, Oct. 2014.

[C-79] T. Chi, J. Park, R. L. Schmid, A. C. Ulusoy, J. D. Cressler, and H. Wang, "A Low-Power and Ultra-Compact W-band Transmitter Front-End in 90nm SiGe BiCMOS Technology,” Proc. IEEE Bipolar/BiCMOS Circuits and Technology Meeting (BCTM), Sep. 2014.

[C-80] J. Park, T. Chi, S. Hu, M. Styczynski, H. Wang, "A Scalable CMOS Cell Sensor Array,” Proc. Semiconductor Research Corporation SRC TECHCON, Sept. 2014.

[C-81] F. Inanlou, W. Khan, P. Song, S. Zeinolabedinzadeh, R. L. Schmid, T. Chi, A. C. Ulusoy, J. Papapolymerou, H. Wang, and J. D. Cressler, “Compact, Low-Power, Single-Ended and Differential SiGe W-band LNAs,” Proc. the 9th European Microwave Integrated Circuits Conference (EuMIC), Oct. 2014.

[C-82] J. Park and H. Wang, “A K-Band 5-Bit Digital Linear Phase Rotator with Folded Transformer Based Ultra-Compact Quadrature Generation,” Proc. IEEE Radio Frequency Integrated Circuits (RFIC), Jun. 2014.

[C-83] S. Hu, S. Kousai, J. Park, O. Chlieh, and H. Wang, “A +27.3dBm Transformer-Based Digital Doherty Polar Power Amplifier Fully Integrated in Bulk CMOS,” Proc. IEEE Radio Frequency Integrated Circuits (RFIC), Jun. 2014. --- This paper won the 2014 RFIC Best Student Paper Award (1st Place).

[C-84] J. Park, T. Chi, and H. Wang, “An Ultra-Broadband Compact Mm-Wave Butler Matrix in CMOS for Array-Based MIMO Systems,” Proc. IEEE Custom Integrated Circuits Conference (CICC)s, Sep. 2013.

[C-85] J. Park, S. Kousai, and H. Wang, “A Fully Differential Ultra-Compact Broadband Transformer Based Quadrature Generation Scheme,” Proc. IEEE Custom Integrated Circuits Conference (CICC), Sep. 2013.

[C-86] A. Borna, Y. Wang, C. Hull, H. Wang, A. Niknejad, “A Fully Integrated Highly Linear Receiver with Automatic IP2 Calibration Schemes for Multi-Standard Applications,” Proc. IEEE Custom Integrated Circuits Conference (CICC), Sep. 2013.

[C-87] A. Borna, C. Hull, Y. Wang, H. Wang, A. Niknejad, “An RF Receiver with an Integrated Adaptive Notch Filter for Multi-Standard Applications,” Proc. IEEE European Solid-State Circuits Conference (ESSCIRC), Sep. 2013.

[C-88] A. Pai, A. Khachaturian, S. Chapman, A. Hu, H. Wang, and A. Hajimiri, “A Handheld Magnetic Sensing Platform for Antigen and Nucleic Acid Detection,” Proc. The 17th International Conference on Miniaturized Systems for Chemistry and Life Sciences (uTAS), Oct. 2013.

[C-89] C. Kim, C. Zhu, J. Zhang, and H. Wang, “A Microscopic Real-Time 3D Impedance Imaging Technique for Precise and Accurate Tumor Remove,” Proc. Center for Clinical and Translational Science Conference, University of Kentucky, Apr. 2013.

[C-90] J. Park and H. Wang, “A Passive Quadrature Generation Scheme for Integrated RF Systems ,” Proc. IEEE MTT-S International Wireless Symposium (IWS), Apr. 2013.

[C-91] H. Wang, A. Mohdavi, D. Tirrell, and A. Hajimiri, “A Label-free Magnetic Cell-Based Sensor for Real-time Chemical Detections,” Proc. BMES 2012 Annual Meeting, Atlanta.

-------- Before Georgia Tech --------

[C-92] H. Wang, “Integrated Biosensors in CMOS,” Proc. IEEE International Midwest Symposium on Circuits and Systems (MWSCAS) (invited), Aug. 2011.  

[C-93] Y. Wang, H. Wang, C. Hull and S. Ravid, “A Transformer-Based Broadband I/O Matching-Balun-T/R Switch Front-end Combo Scheme in Standard CMOS,” Proc. IEEE Custom Integrated Circuits Conference (CICC), Sep. 2011.
 
[C-94] H. Wang, K. Dasgupta, and A. Hajimiri, “A Broadband Self-Healing Phase Synthesis Scheme,” Proc. IEEE Radio Frequency Integrated Circuits (RFIC), Jun. 2011.
 
[C-95] H. Wang, C. Sideris, and A. Hajimiri, “A Frequency-Shift based CMOS Magnetic Biosensor with Spatially Uniform Sensor Transducer Gain,” Proc. IEEE Custom Integrated Circuits Conference (CICC), Sep. 2010.
 
[C-96] H. Wang, C. Sideris, and A. Hajimiri, “A 5.2-to-13 GHz Class AB CMOS Power Amplifier with a +25.2dBm Peak Output Power at 21.6% PAE,” IEEE International Solid-State Circuits Conference (ISSCC) Dig. Tech. Papers, pp.44-45, Feb. 2010.
 
[C-97] H. Wang, S. Kosai, C. Sideris, and A. Hajimiri, “An Ultrasensitive CMOS Magnetic Biosensor Array with Correlated Double Counting (CDC) Noise Suppression,” Proc. IEEE MTT-S Int. Microwave Symp. (IMS), Jun. 2010.
 
[C-98] H. Wang, “A Frequency-Shift based CMOS Magnetic Biosensor Array for Point-of-Care (PoC) Molecular Diagnostics,” Proc. CMOS Emerging Technologies Workshop, Whistler, BC, Canada, (invited), May 2010.
 
[C-99] H. Wang, “High-Performance Magnetic-Based CMOS Biosensors,” Proc. NIH/IEEE Circuits and Systems for Medical and Environmental Applications Workshop, Merida, Mexico, Dec 2009.

[C-100] H. Wang and A. Hajimiri, “An ultrasensitive CMOS magnetic biosensor array for Point-of-Care (PoC) microarray application,” Proc. IEEE Design Automation Conference (DAC), 2009.
 
[C-101] H. Wang, “Biosensors for POC Applications,” Proc. IEEE 20th Annual Workshop on Interconnections with High Speed Digital Systems- Emerging Technologies, (invited), May 2009.
 
[C-102] H. Wang, Y. Chen, A. Hassibi, A. Scherer, and A. Hajimiri, “A Frequency-Shift CMOS Magnetic Biosensor Array with Single-Bead Sensitivity and No External Magnet,” IEEE International Solid-State Circuits Conference (ISSCC) Dig. Tech. Papers, pp.438-439, Feb. 2009.
 
[C-103] H. Wang, S. Jeon, Y.-J. Wang, F. Bohn, A. Natarajan, A. Babakhani, and A. Hajimiri, “A tunable concurrent 6-to-18 GHz phased array system in CMOS,” Proc. IEEE MTT-S Int. Microwave Symp. (IMS), pp.687-690, Jun. 2008.
 
[C-104] H. Wang and A. Hajimiri, “A wideband CMOS linear digital phase rotator,” Proc. IEEE Custom Integrated Circuits Conference (CICC), pp.671-674, Apr. 2007.
 
[C-105] F. Bohn, H. Wang, A. Natarajan, S.Jeon, and A. Hajimiri, “Fully integrated frequency and phase generation for a 6–18GHz tunable multi-band phased-array receiver in CMOS,” Proc. IEEE Radio Frequency Integrated Circuits (RFIC), pp.439-442, Jun. 2008.  
 
[C-106] S. Jeon, Y. Wang, H. Wang, F. Bohn, A. Natarajan, A. Babakhani, and  A. Hajimiri, “A scalable 6-to-18GHz concurrent dual-band quad-beam phased-array receiver in CMOS,” IEEE International Solid-State Circuits Conference (ISSCC) Dig. Tech. Papers, pp.186–188, Feb. 2008.
                             
                            

PATENTS

[P-1] H. Wang, J. Hatlestad, “Posture Detector Calibration and Use”, U.S. Patent no. 8,366,641 B2, issued Nov 18, 2005.

[P-2] H. Wang, J. Hatlestad, and K. Maile, “Posture Detection System”, U.S. Patent no. 7,471,290 B2, issued Nov 18, 2005.

[P-3] H. Wang, A. Hajimiri, “Fully Integrated Temperature Regulator for Biochemical Application”, US patent no. 8,274,021 B2, issued Mar 6, 2009.

[P-4] H. Wang, A. Hajimiri, “Frequency-shift CMOS magnetic biosensor array with single bead sensitivity and no external magnet”, US patent no. 8,378,669 B2, issued Sep 15, 2009.

[P-5] H. Wang, A. Hajimiri, S. Kousai, “Noise Suppression Techniques in High-Precision Long-Term Frequency/Timing Measurements”, US patent no. 8,610,589 B2, issued Feb 22, 2010.

[P-6] F. Bohn, A. Hajimiri, H. Wang, Y-J. Wang, “Electronic Self-Healing Methods for Radio-Frequency Receivers”, US patent no. 8,305,106 B2, issued Aug 24, 2010.

[P-7] H. Wang, A. Hajimiri, “A Broadband Phase Synthesis Network with Self-Healing Capability”, US patent no. 8,391,426 B2, issued Nov 18, 2010.

[P-8] H. Wang, A. Hajimiri, “An Ultrasensitive Detection Platform for Sensing Magnetic and/or Electrical Energy Change”, US patent no. 8,878,684, issued Nov 4, 2014.

[P-9] H. Wang, A. Hajimiri, Y. Chen, “Effective-Inductance-Change Based Magnetic Particle Sensing”, US patent, no. 9,176,206 B2, issued Nov 3, 2015.

 

Last revised on Dec 30th, 2015.