Publications
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
Journal Publications

(Supervised Rutgers Students and Postdocs from Javanmard group Underlined)

[J.47]. P. Xie, N. Song, W. Shen, M. Allen, M. Javanmard. A ten-minute, single step, label-free, sample-to-answer assay for qualitative detection of cytokines in serum at femtomolar levels. Biomedical Microdevices 22, 73 (2020). 

[J.46]. A. Gholizadeh, S. Sardar, K. Francisco, A. Maher, R. Miskewitz, M. Javanmard. Towards In-Situ Environmental Monitoring: On-Chip Sample Preparation and Detection of Lead in Sediment Samples Using Graphene Oxide Sensor. IEEE Sensors Journal. July 6 2020.

 

[J.45]. S.R. Mahmoodi, P. Xie, M. Allen, M. Javanmard. Multiwell Plate Impedance Analysis of a Nanowell Array Sensor for Label-Free Detection of Cytokines in Mouse Serum. IEEE Sensors Letters. 2020 Jan 22;4(2):1-4.

[J.44]. J. Sui, F. Foflonker, D. Bhattacharya, M. Javanmard, “Electrical Impedance as an Indicator of Microalgal Cell Health”. Scientific Reports (Nature Publishing Group) 2020.

 

[J.43]. Z. Lin, J. Bertino, M. Javanmard, “Point-of-Care Device for Patient Selection Using CTC Detection”, Scientific Reports (Nature Publishing Group) 2020.

[J.42]. J. Sui, P. Xie, M. Javanmard, “A Study of an Expanded Library of Electronically barcoded Particles for use in Multiplexed Biomarker Analysis in Conjunction with Supervised Machine Learning”. Talanta. 2020.

[J.41] A. Gholizadeh, S. Abbaslou, P. Xie, A. Knaian, M. Javanmard, "Electronically Actuated Microfluidic Valves with Zero Static-power Consumption Using Electropermanent Magnets", Sensors and Actuators A: Physcial. 2019.

 

[J.40]. K. Ahuja, J. Sui, P. Xie, Z. Lin, G. Rather, J. Bertino, M. Javanmard, “Towards Personalized Therapeutics: Assessment of Patient Response to Targeted Cancer Therapy Using Multi-Frequency Impedance Cytometry and Supervised Machine Learning”. Microsystems and Nanoengineering (Nature Publishing Group) 2019.

 

[J.39] M. Javanmard, “Lab-on-a-Chip Technologies for Diagnosis and Monitoring of Inflammation and Allergy”, The Journal of Allergy and Clinical Immunology. 2019.

 

[J.38]. S. Sardar, L. Fabris, M. Javanmard, “Improved Accuracy in Quantification of Analyte through Dual-Modality Multi-Site Sensing”. Analytical Chemistry. 2018.

[J.37]. T. Le, G. Sallesloustau, L. Najafizadeh, S. Zonouz, M. Javanmard, “Cytocoded Passwords: BioMEMS Based Barcoding of Biological Samples for User Authentication in Microfluidic Diagnostic Devices”, Biomedical Microdevices. 20, 63 (2018).

 

[J.36]. M. Salem, M. Javanmard, “Electrochemical Quantification of Nucleic Acids Using Graphene Based Electrodes for Point-of-Care Diagnostics”, IEEE Sensors Letters. 2, 4500404 (2018).

 

[J.35]. A. Furntiturewalla, M. Chan, J. Sui, and K. Ahuja, M. Javanmard, “Fully Integrated Wearable Impedance Cytometry Platform on Flexible Circuit Board with Online Smartphone Readout”, Microsystems and Nanoengineering (Nature Publishing Group) 4, 20 (2018).

 

[J.34] X. Zhao, V. Sadhu, T. Le, D. Pompili, M. Javanmard, “Toward Wireless Health Monitoring via an Analog Signal Compression-Based Biosensing Platform”, IEEE Transactions on Biomedical Circuits and Systems. 12, 461 (2018).

 

[J.33] M. Aldeer, M. Javanmard, R. Martin “A Review of Medication Adherence Monitoring Technologies”, Applied System Innovation. 1(2), 14 (2018).

[J.32] T. Le, G. Sallesloustau, L. Najafizadeh, M. Javanmard, S. Zonouz “Trusted Sensor Signal Protection for Confidential Point-of-Care Medical Diagnostic”, IEEE Sensors Journal. (2017)

 

[J.31] P. Xie, X. Cao, Z. Lin, M. Javanmard “Multiplexed Molecular Biomarker Detection Using Nanoelectronically Barcoded Beads”, Lab on a Chip. (2017).

 

[J.30] N. Talukder, A. Furniturewalla, T. Le, M. Chan, S. Hirday, X. Cao, P. Xie, Z. Lin, A. Gholizadeh, S. Orbine, M. Javanmard “A Portable Battery Powered Microfluidic Impedance Cytometer with Smartphone Readout: Towards Personal Health Monitoring”, Biomedical Microdevices. (2017).

 

[J.29] A. Gholizadeh, D. Voiry, C. Weisel, A. Gow, R. Laumbach, H. Kipen, M. Chhowalla, M. Javanmard, “Towards Point-of-Care Management of Chronic Respiratory Conditions: Electrochemical Sensing of Nitrite Content in Exhaled Breath Condensate Using Reduced Graphene Oxide,” Nature Microsystems and Nanoengineering (2017).

 

[J.28]  P. Xie, X. Cao, Z. Lin, N. Talukder, S. Emaminejad, M. Javanmard, “Processing Gain and Noise in Multi-Electrode Impedance Cytometers: Comprehensive Electrical Design Methodology and Characterization”. Sensors and Actuators B: Chemical. 241:672-80 (2017).

 

[J.27] A. Gholizadeh, M. Javanmard, "Magnetically Actuated Microfluidic Transistors: Miniaturized Micro-Valves Using Magnetorheological Fluids Integrated With Elastomeric Membranes," Journal of Microelectromechanical Systems, PP, 1-7, doi: 10.1109/JMEMS.2016.2586420

[J.26] Smith GT, Dwork N, Khan SA, Millet M, Magar K, Javanmard M, Bowden AK. Robust dipstick urinalysis using a low-cost, micro-volume slipping manifold and mobile phone platform. Lab on a Chip. (2016).

 

[J.25] Z. Lin, X. Cao, P. Xie, M. Liu, M. Javanmard, “PicoMolar level detection of protein biomarkers based on electronic sizing of bead aggregates: theoretical and experimental considerations”. Biomedical Microdevices. 17, 119, (2015).

 

[J.24] S. Emaminejad, K.H. Paik, V. Tabard-Cossa, M. Javanmard, “Portable Cytometry Using Microscale Electronic Sensing”. Sensors and Actuators B: Chemical. 224, 275-281, (2016).

 

[J.23]  Z. Lin, P. Xie, X. Cao, M. Javanmard, “Electronic Quantification of Protein Biomarkers Based on Bead Aggregate Sizing”. IEEE Sensors. 15, 6763-6764, (2015).

 

[J.22] S. Emaminejad*, M. Javanmard*, C. Gupta, R.W. Davis, R.T. Howe, "Tunable Control of Antibody Immobilization using Electric Field", Proceedings of the National Academy of Sciences. 112, 1995-1999, (2015). * Equal Contribution

 

[J.21] S. Emaminejad, S. Talebi, R.W. Davis M. Javanmard,, “Extraction of Signal from Noise: Impedance Cytometry Using Multi-electrode Sensing”. IEEE Sensors. 15, 2715-2716, (2015).

 

Pre-Rutgers:

 

 [J.20] S. Emaminejad, R.W. Dutton, R. W. Davis, M. Javanmard. "Multiplexed Actuation using Ultra Dielectrophoresis for Proteomics Applications: A Comprehensive Electrical and Electrothermal Design Methodology", Lab on a Chip. 14, 2105-2114, (2014).

 

[J.19] J. Mok, M. Mindrinos, R.W. Davis, M. Javanmard. "Digital Microfluidic Assay for Detection of Proteins", Proceedings of the National Academy of Sciences, 111, 2110-2115, (2014).

 

[J.18] R. Esfandyarpour, M. Javanmard, Z. Koochak, J.S. Harris, R. W. Davis, “Nanoelectronic Impedance Detection of Target Cells”, Bioengineering and Biotechnology, 111, 1161-1169, (2014).

 

[J.17] M. Javanmard, S. Emaminejad, C. Gupta, R.W. Davis, R.T. Howe, "Depletion of Cells and Abundant Proteins from Biological Samples by Enhanced Dielectrophoresis", Sensors and Actuators B.  193, 918-924, (2014).

 

[J.16] S. Emaminejad*, M. Javanmard*, R. Dutton, R. W. Davis, “Ultra Dielectrophoresis Using Atomic Layer Deposited Films: Electrothermal Analysis”, Electrochemical Society Transactions, 58, 67-72, (2013). *Equal Contribution

 

[J.15] R. Esfandyarpour, M. Javanmard, H. Esfandyarpour, Z. Koochak, J. Harris, R.W. Davis, "Electronic Probing of Nucleic Acids and Proteins on the Nanoscale", Biomicrofluidics, 7, 044114 (2013).

 

[J.14] S. Emaminejad*, M. Javanmard*, R. Dutton, R.W. Davis, “Smart Surface for Elution of Protein–Protein Bound Particles: Nanonewton Dielectrophoretic Forces Using Atomic Layer Deposited Oxides”, Analytical Chemistry, 84, 10793-1081 (2012). * Equal Contribution.

 

[J.13] R. Esfandyarpour, H. Esfandyarpour, M. Javanmard, J. Harris, R.W. Davis, "MicroNeedle Biosensor: A Method for Direct Label-free Real Time Protein Detection", Sensors and Actuators B, 177, 848-855 (2013).

 

[J.12] M. Javanmard, R.W. Davis, “Coded Corrugated Microfluidic Sidewalls for Code Division Multiplexing”, IEEE Sensors Journal. 13, 1399-1400 (2013).

 

[J.11] S. Emaminejad*, M. Javanmard*, R. Dutton, R.W. Davis, “Microfluidic Diagnostic Tool for the Developing World: Contactless Impedance Flow Cytometry”, Lab on a Chip, 12, 4499-4507 (2012).  * Equal Contribution.

 

[J.10] M. Javanmard, S. Emaminejad, R. Dutton, R.W. Davis, “Use of Negative Dielectrophoresis for Selective Elution of Immuno-bound Particles”, Analytical Chemistry 84, 1432-1438  (2012).

 

[J. 9] M. Javanmard, F. Babrzadeh, R. W. Davis, “Optimized Multiplexed Cell Capture using Parallel Bioactivated Microfluidic Channels”, Biomedical Microdevices 14, 625-629 (2012).

 

[J.8]  M. Javanmard, R.W. Davis, “A Microfludic Platform for Electrical Monitoring of Enzyme Activity”, IEEE Sensors Journal, 12, 2733-2734 (2012).

 

[J.7] M. Javanmard, R.W. Davis, “Microfluidic Force Spectroscopy for Characterization of Biomolecular Interactions with PicoNewton Resolution”, Applied Physics Letters 97, 173704-173706 (2010). Invited Paper in Virtual Journal of Biological Physics Research.

 

[J.6] M. Javanmard, R.W. Davis, “A Microfluidic Platform for Electrical Detection of DNA Hybridization”, Sensors and Actuators: B Journal 154, 22-27 (2011).

 

[J.5] M. Javanmard, H. Esfandyarpour, F. Pease, R.W. Davis, “Electrical Analysis of Proteins and DNA using Bioactivated Microfluidic Channels: Theoretical and Experimental Considerations” Journal of Vacuum Science and Technology B: Microelectronics and Nanometer Structures 27, 3099-3103 (2009).

 

[J.4] M. Javanmard, M. Nemat-Gorgani, A. Talasaz, F. Pease, M. Ronaghi, R.W. Davis, “Electrical Detection of Protein Biomarkers Using Bioactivated Microfluidic Channels,” Lab on a Chip Journal 9, 1429-1434 (2009).

 

[J.3] M. Javanmard, M. Nemat-Gorgani, A. Talasaz, F. Pease, M. Ronaghi, R.W. Davis, “A Microfluidic Platform for Characterization of Protein-Protein Interactions,” IEEE Sensors Journal 9, 883-891 (2009).

 

[J.2] M. Javanmard, A. Talasaz, M. Nemat-Gorgani, F. Pease, M. Ronaghi, R.W. Davis, “Targeted Cell Detection Based on Micro-Channel Gating,” Biomicrofluidics Journal 1,044103 (2007). Also featured as Invited Paper in Virtual Journal of Biological Physics Research. Among top 20 Biomicrofluidics downloaded papers for over 6 months.

 

[J.1] N. Wu, M. Javanmard, M. Soltani, A. Adibi, "General methods for designing  single-mode planar photonic crystal waveguides in hexagonal lattice structures," Optics Express 11, 1371-1377 (2003). Also featured as invited paper in Virtual Journal of Nanoscale Science and Technology.

 

Peer Reviewed Conference Proceedings (CP)

 

[CP.51] Z. Lin, J. Sui, P. Xie, K. Ahuja, and M. Javanmard, “A Two-Minute Assay for Electronic Quantification of Antibodies in Saliva Enabled through Multi-Frequency Impedance Cytometry and Machine Learning Analysis,” Hilton Head: A Solid-State Sensors and Microsystems Workshop 2018.

 

[CP.50] J. Sui, P. Xie, Z. Lin, M. Javanmard. “Multiplexed Molecular Biomarker Analysis using an Expanded Library of Nanoelectronically Barcoded Particles Enabled through Machine Learning Analysis,” IEEE Micro Electro Mechanical Systems (MEMS) 2018. Jan 21 (pp. 444-447).

 

[CP.49] N. Song, P. Xie, W. Shen, M. Javanmard, M.G. Allen, “Microwell-array on a flexible needle: A transcutaneous insertable impedance sensor for label-free cytokine detection,” IEEE Micro Electro Mechanical Systems (MEMS) Conference 2018. Jan 21 (pp. 392-395).

 

[CP.48] A. Furniturewalla, M. Chan, J. Sui, M. Javanmard, “Wearable Impedance Cytometer on Flexible Circuit Board with Wireless Smartphone Readout,” Proceedings of MicroTAS 2017.

 

[CP.47] S. Sardar, L. Fabris, M. Javanmard, “Improved Accuracy in Quantification of Analyte Through Dual Modality Multi-Site Sensing,” Proceedings of MicroTAS 2017.

 

[CP.46] P. Xie, N. Song, W. Shen, M. G. Allen, M. Javanmard, “Nanowell Array Impedance Sensor for Label-Free Quantification of Cytokines in Serum at FemtoMolar Level Detection Limits,” Proceedings of MicroTAS 2017.

 

[CP.45] J. Sui, N. Gandotra, P. Xie, Z. Lin, C. Scharfe, M. Javanmard, “Label-Free DNA Quantification by Multi-Frequency Impedance Cytometery and Machine Learning Analysis,” Proceedings of MicroTAS 2017.

 

[CP.44] J. Sui, P. Xie, Z. Lin, Mehdi Javanmard, “Electronically Barcoded Particles for Multiplexed Molecular Bioanalysis: A Study of the Effect of Thin Film Dielectric Permittivity and Thickness,” Proceedings of MicroTAS 2017.

 

[CP.43] K. Ahuja, Z. Lin, J. Sui, G. Rather, J.R.Bertino and M. Javanmard, “Assessment of Patient Response to Targeted Cancer Therapy Using Multi-Frequency Impedance Cytometry and Untrained Machine Learning,” Proceedings of MicroTAS 2017.

 

[CP.42] C. Bayens, T. Le, L. Garcia, R. A. Beyah, M. Javanmard, S.A. Zonouz: See No Evil, Hear No Evil, Feel No Evil, Print No Evil? Malicious Fill Patterns Detection in Additive Manufacturing. USENIX Security Symposium 2017: 1181-1198.

 

[CP.41] Z. Lin, S. Lin, P. Xie, J. Bertino, M. Javanmard, “Analysis of Surface markers on CTCS Using Immuno-Magnetic Separation and Multi-Frequency Impedance Spectroscopy,” Proceedings of MicroTAS 2016.

 

[CP.40] P. Xie, X. Cao, Z. Lin M. Javanmard, “Top-Down Fabrication Meets Bottom-Up Synthesis: Electroncially Barcoded Particles For Multiplexed Molecular Analysis,” Proceedings of MicroTAS 2016.

 

[CP.39] A. Gholizadeh, M. Javanmard, “Micro-Magnetically Controlled Valves for Ultra-Compact Integrated Micro-Total Analysis Systems,” Proceedings of MicroTAS 2016.

 

[CP.38] T. Le, G. Salles-Loustau, L. Najafizadeh, Mehdi Javanmard, Saman Zonouz, “BioMEMS-Based Coding for Secure Medical Diagnostic Devices,” IEEE Conference for Engineering in Medicine and Biology (EMBC), 2016.

 

[CP.37] A. Gholizadeh, D. Voiry, C. Wiesel, R. Laumbach, H. Kipen, M. Chhowalla, M. Javanmard, “Reduced Graphene Oxide Sensor for Quantification of Metabolites in Exhaled Breath Condensate,” Hilton Head 2016: A Solid-State Sensors and Microsystems Workshop. 2016.

 

[CP.36] S. Emaminejad, S. Talebi, A. Javey, R.W. Davis, and M. Javanmard, “Ultra-Dielectrophoretic Force Spectroscopy Array for Probing Intermolecular Affinities,” Hilton Head 2016: A Solid-State Sensors and Microsystems Workshop. 2016.

 

[CP.35] Zhongtian Lin, Siang-Yo Lin, Milton Liu, Pengfei Xie, Joseph Bertino, Mehdi Javanmard, “Electronic Quantification of Surface Proteins on Circulating Tumor Cells Based on Bead-CTC Aggregate Sizing,” International Conference on Electron Ion Photon Beams and Nanotechnology 2016.

 

[CP.34] Pengfei Xie, Xinnan Cao, Zhongtian Lin, Mehdi Javanmard, “Multiplexed Molecular Assays Using Nanoelectronically Barcoded Beads,” International Conference on Electron Ion Photon Beams and Nanotechnology 2016.

 

[CP.33] A. Gholizadeh, M. Javanmard, “Ultra-Compact Microfluidic Valves Using Magnetorheological Fluid Patterned on an Elastomeric Membrane,” International Conference on Electron Ion Photon Beams and Nanotechnology 2016.

 

[CP.32] A. Gholizadeh, D. Voiry, C. Weisel, H. Kipen, R. Laumbach, M. Chhowalla, M. Javanmard, “Electrochemical detection of nitrite content in exhaled breath condensate using reduced graphene oxide electrodes,” Biosensors 2016

 

[CP.31] T. Le, G. Salles_Loustau, M. Javanmard, L. Najafizadeh, S. Zonouz, “Cyto-Encryption: BioMEMS Based Cryptography for Secure Medical Diagnostic Devices,” Biosensors 2016.

 

[CP.30] T. Le, G. Salles-Loustau, L. Najafizadeh, M. Javanmard, S. Zonouz, “Secure Point-of-Care Medical Diagnostics via Trusted Sensing and Cyto-Coded Passwords,” The IEEE/IFIP International Conference on Dependable Systems and Networks (DSN) 2016.

 

[CP.29] P. Xie, X. Cao, M. Javanmard, “Multiplexed Molecular Assays Using Nanoelectronically Barcoded Beads," IEEE MEMS Conference 2016.

 

[CP.28] N. Talukder, P. Xie, X. Cao, M. Javanmard, “Miniaturized Readout Circuit for Portable Medical Device based on Microfluidic Impedance Cytomtery,“ IEEE Signal Processing in Medicine and Biology Symposium (SPMB 2015).

 

[CP.27] M. Javanmard, M. Amini, S. Zonouz, “TSC: Trustworthy and Scalable Cytometry,” IEEE Conference on Big Data Security 2015.

 

[CP.26] P. Xie, X. Cao, Z. Lin, M. Javanmard, “Comprehensive Study of Processing Gain Improvement Using Multi-electrodes Impedance Cytometry," Proceedings of MicroTAS 2015.

 

[CP.25] Z. Lin, X. Cao, P. Xie, M. Javanmard, “Electronic Quantification of Inflammatory Protein Biomarkers Based On bead Aggregate Sizing," Proceedings of MicroTAS 2015.

 

[CP.24] Z. Lin, P. Xie, X. Cao, M. Javanmard, “Electronic Quantification of Protein Biomarkers Based on Bead Aggregate Sizing," International Conference on Electron Ion Photon Beams and Nanotechnology 2015.

 

[CP.23] P. Xie, Z. Lin, N. Talukder, X. Cao, M. Javanmard, “Impedance Cytometry Based on Multi-fingered Interdigitated Electrodes," International Conference on Electron Ion Photon Beams and Nanotechnology 2015.

 

[CP.22] S. Emaminejad, J. Mok, M. Mindrinos, R. W. Davis, M. Javanmard, “Digital Assay for Multiplexed Detection of Protein Biomarkers”, Proceedings of MicroTAS 2014.

 

[CP.21] S. Emaminejad, S. Talebi, R. W. Davis, M. Javanmard, “Extraction of Signal from Noise: Impedance Cytometry Using Multielectrode Sensing”, Proceedings of MicroTAS 2014.

 

Pre-Rutgers:

 

[CP. 20] S. Emaminejad, M. Barako R. W. Davis, R. W. Dutton, K. E. Goodson, M. Javanmard, “Multiplexed Proteomics Using Two Orders of Magnitude Improved Dielectrophoresis: A Comprehensive Electrical and Electrothermal Design Methodology”, Hilton Head 2014: A Solid-State Sensors and Microsystems Workshop (2014). (Oral Presentation: < 10% acceptance rate)

 

[CP.19] S. Emaminejad, M. Javanmard, S. Chang, C. Gupta, R. W. Davis, R.T. Howe, “Electrical Actuation at the Nanoscale: Controlled Orientation of Proteins During Immobilization”, Hilton Head 2014: A Solid-State Sensors and Microsystems Workshop (2014). (Poster Presentation: < 33% acceptance rate)

 

[CP.18] M. Javanamrd, R.W. Davis, “Surface Enhanced Raman Scattering (SERS) for Detection of Phenylketonuria for Newborn Screening”, Proceedings of the SPIE 2014.

 

[CP.17] R. Esfandyarpour, M. Javanmard, J. S. Harris, R. W. Davis, “Label-free Electronic Detection of Target Cells”, Proceedings of the SPIE 2014.

 

[CP.16] R. Esfandyarpour, M. Javanmard, Z. Koochak, J. S. Harris, R. W. Davis, “Matrix-Independent Nanoelectronic Label-free Protein Detection”, IEEE MEMS 2014. (Poster Presentation: 36% Acceptance Rate)

 

[CP.15] M. Javanmard, S. Emaminejad, C. Gupta, R. W. Davis, R.T. Howe, “Immobilization of Antibodies on Solid-State Surfaces With Controlled Orientation Using Electric Field”, MicroTAS 2013. (Oral Presentation: 8 % acceptance rate)

 

[CP.14] S. Emaminejad, M. Javanmard, C. Gupta, R. W. Davis, R.T. Howe, “Ultra-Dielectrophoresis: Nanonewton Forces for Cell Separation”, MicroTAS (2013).

 

[CP.13] M. Javanmard, S. Emaminejad, C. Gupta, R. W. Davis, R.T. Howe, “Use of Electric Field to Improve Immunoassay Performance”, IEEE Sensors Conference (2013). Best Paper Award.

 

[CP.12] S. Emaminejad, M. Javanmard, C. Gupta, R. W. Davis, R.T. Howe, “Applications of Ultra-Dielectrophoresis to Sample Preparation and Proteomics”, IEEE Transducers Conference (2013).

 

[CP.11] M. Javanmard, S. Emaminejad, R. Dutton, R. W. Davis, “Contactless Impedance Sensing: Low Cost Cellomics and Proteomics for the Developing World”, Microtechnologies in Medicine and Biology (2013).

 

[CP.10] M. Javanmard, F. Babrzadeh, R. W. Davis, “Optimized Pathogen Cell Capture Using Parallel Bioactivated Microfluidic Channels”, Electron Ion Photon Beam Technology and Nanofabrication (2011).

 

[CP.9] M. Javanmard, S. Emaminejad, R. Dutton, R.W. Davis, “Use of Negative Dielectrophoresis for Selective Elution of Immuno-bound Particles” Proceedings of MicroTAS (2011).

 

[CP.8] M. Javanmard, R.W. Davis, “Pulse Width Modulation Using Coded Corrugated Sidewalls for Low Signal-Noise Ratio Impedance Cytometry”, Proceeding of MicroTAS (2011).

 

[CP.7] M. Javanmard, J. Mok, M. Mindrinos, R. W. Davis, “Attomolar Sensitive Functional Proteomic Assay”, Proceedings of MicroTAS (2010).

 

[CP.6] M. Javanmard, A. Talasaz, M. Nemat-Gorgani, F. Pease, M. Ronaghi, R.W. Davis, “Label-free Electrical Immunoassay using Protein functionalized Microfluidic Channels” Proceedings of MicroTAS (2008).

 

[CP.5] M. Javanmard, M. Nemat-Gorgani, A. Talasaz, F. Pease, M. Ronaghi, R.W. Davis, “Detection of Antigen-Antibody Interactions based on Micro-Channel Gating,” Proceedings of IEEE Sensors Application Symposium (2008).

 

[CP.4] M. Javanmard, A. Talasaz, M. Nemat-Gorgani, F. Pease, M. Ronaghi, R.W. Davis, “Direct Electrical Detection of Target Cells on a Microfluidic Biochip” Proceedings of SPIE MEMS/MOEMS (2008).

 

[CP.3] M. Javanmard, A. Talasaz, M. Nemat-Gorgani, F. Pease, M. Ronaghi, R.W. Davis, “Detection of Bacterial Cells Based on Micro-Channel Gating,” Proceedings of MicroTAS (2007).

 

[CP.2] B. Cowan, M. Javanmard, R. Siemann, “Photonic Crystal Accelerator Structures,” Proceedings of IEEE Particle Accelerator Conference (2003).

 

[CP.1] S. Banna, E. Colby, M. Javanmard, R. Noble, R. Siemann, R. L. Byer, B. Cowan, T.Plettnner, A. Mizrahi, L. Schachter, “Scaling Laws of Dielectric Optical Accelerator,” Proceedings of IEEE Particle Accelerator Conference (2003).  

 

 

 

Conference Presentations without Proceedings (C):

 

[C.28] A. Gholizadeh, S. Sardar, K. Black, C. Weisel, R. Laumbach, H. Kipen, A. Gow, M. Javanmard, “Continuous Monitoring of Lung Metabolites in Exhaled Breath Condensate Using Reduced Graphene Oxide Sensor”, American Chemical Society Annual Meeting 2018. (Invited Talk)

 

[C.27] K. Ahuja, G. Rather, J. Bertino, M. Javanmard, “Label-free Discrimination of Cancer cells and Blood Cells using Multi-Frequency Impedance Cytometry in Conjunction with Supervised Machine Learning,” Microfluidics for Hematology Conference 2018.

 

[C.26] A. Gholizadeh, S. Sardar, K. Black, C. Weisel, R. Laumbach, H. Kipen, A. Gow, M. Javanmard, “Nanomolar Detection of Lung Metabolites in Exhaled Breath Condensate Using Reduced Graphene Oxide Sensor—A Study of the Effects of Sample Matrix and Storage Conditions,” Proceedings of Materials Research Society Fall Meeting 2017.

 

[C.25] S. Sardar, L. Fabris and M. Javanmard, “Improved Accuracy in Quantification of Analyte through Dual Modality Multi-Site Sensing,” Proceedings of Materials Research Society Fall Meeting, 2017.

 

[C.24] M. Javanmard, Top-down fabrication meets bottom-up synthesis: nanoelectronic barcoded microparticles for multiplexed molecular biomarker analysis, IEEE NEMS 2017 (Invited Talk)

 

[C.23] N. Talukder, P. Xie, Z. Lin, M. Javanmard, “Micron Sized Impedance Sensors for Nanoscale Biomolecular Detection”, Materials Research Society Spring Meeting 2015.

 

[C. 22] Z. Lin, P. Xie, N. Talukder, M. Javanmard, Microfluidic Electronic Sensing for Continuous Protein Biomarker Detection with High Spatial Density, Materials Research Society Spring Meeting 2015.

 

[C. 21] P. Xie, Z. Lin, N. Talukder, M. Javanmard, “Multiplexed Microfluidic Impedance Measurement with Electronically Nano-barcoded Microparticles”, Materials Research Society Spring Meeting 2015.

 

Pre-Rutgers:

 

[C.20] M. Javanmard, S. Emaminejad, C. Gupta, R. W. Davis, R.T. Howe, “Three Stage Sample Preparation for Biotoxin Detection”, AICHE (2013).

 

[C.19] M. Javanmard, J. Mok, R. W. Davis, M. Mindrinos, “Microfluidic Platform for Specific Capture, Release, and Impedance Based Quantification of Microparticles for Protein and Cellular Quantification”, Electrochemical Society Annual Meeting (2013).

 

[C.18] M. Javanmard, S. Emaminejad, C. Gupta, J. Provine, R. W. Davis, R. T. Howe, "Microfluidic Sample Preparation Platform for Depletion of Cells and Highly Abundant Proteins from Blood”, Materials Research Society Spring Annual Meeting (2013).

 

[C.17] S. Emaminejad, M. Javanmard, R. Dutton, R. W. Davis, "Two Order of Magnitude Improvement in DEP force using ALD Deposited Oxide”, Materials Research Society Spring Annual Meeting (2013).

 

[C.16] R. Esfandyarpour, H. Esfandyarpour, M. Javanmard, J. S. Harris, R. W. Davis, "Dielectric Probing of DNA, Proteins, and Cells at the Nanoscale”, Materials Research Society Spring Annual Meeting (2013).

 

[C.15] S. Emaminejad, M. Javanmard, R. Dutton, R.W. Davis, "Contactless Impedance Sensing for Flow Cytometry", Materials Research Society Fall Annual Meeting (2012). 

 

[C.14] R. Esfandyarpour, M. Javanmard, J.S. Harris, R.W. Davis, "Real Time Nanoscale Impedance Sensing", Materials Research Society Fall Annual Meeting (2012). 

 

[C.13] M. Javanmard, S. Emaminejad, R. Dutton, R.W. Davis, "Cell Counting Using Contactless Impedance Sensing For Low Resource Settings", Biomedical Engineering Society Annual Meeting (2012). 

 

[C.12] S. Emaminejad, M. Javanmard, R. Dutton, R.W. Davis, "Disposable Coded Low Signal-Noise Ratio Single Cell Impedance Cytometry", Nanotech (2012). 

 

[C.11] C. Gupta, R. Walker, R. Gharpuray, M. M. Shulaker, Z. Zhang, M. Javanmard,
R. W. Davis, B. Murmann, and R. T. Howe,  "Electrochemical Quantum Tunneling for Electronic Detection and Characterization of Biological Toxins", Proceedings of SPIE (2012). 

 

[C.10] M. Javanmard, R. Esfandyarpour, R. W. Davis, "Surface Enhanced Raman Scattering for Metabolite Detection in Newborn Screening", Proceedings of SPIE (2014).

 

[C.9] M. Javanmard, S. Emaminejad, R. Dutton, R. W. Davis, “An Electronic Microfluidic Switch Using Dielectrophoresis for Control of Microparticles”, International Semiconductor Devices Research Society (2011).

 

[C.8] M. Javanmard, F. Babrzadeh, R. W. Davis, “Improvements in Throughput for Cell Capture for Electronic Biosensor”, Materials Research Society Spring Meeting (2011).

 

[C.7] R. Esfandyarpour, H. Esfandyarpour, M. Javanmard, J. Harris, R.W. Davis, “Electrical Detection of Protein Biomarkers Using Nanoneedle Biosensors” Proceedings of Materials Research Society (2011).

 

[C.6] S. Emaminejad, M. Javanmard, R. Dutton, R.W. Davis “Smart Surfaces: Use of Electrokinetics for Selective Modulation of Biomolecular Affinities” Proceedings of Materials Research Society (2011).

 

[C.5] M. Javanmard, R.W. Davis, “Shear Force Spectroscopy for Analysis of Biomolecular Interactions”, Materials Research Society Spring Meeting (2010).

 

[C.4] M. Javanmard, R.W. Davis, “A Scalable technique for Analysis of DNA-DNA Interactions”, SPIE (2010).

 

[C.3] M. Javanmard, R.W. Davis, “Shear Force Spectroscopy for Analysis of Biomolecular Interactions”, Materials Research Society Spring Meeting (2010).

 

[C.2] M. Javanmard, M. Nemat-Gorgani, A. Talasaz, F. Pease, M. Ronaghi, R.W. Davis, “Early Diagnosis of Cancer by Electrical Detection of Nucleic Acid Biomarkers,” Proceedings of IEEE Transducers (2009).

 

[C.1] N. Wu, M. Javanmard, A. Adibi, "General methods of designing single-mode photonic crystal waveguides," Optical Society of America Annual Meeting (2002).

Pending Patents:

[P.8] M.G. Allen, P. Xie, N. Song, W. Shen, M. Javanmard,  "Transcutaneous Wearable Apparatus for Continuous Monitoring of Biomarkers in Blood" - U.S. Serial No.: 62/575,254

[P.7] S. Zonouz, R. Bayah, C. Bayens, T. Le, L. Garcia, M. Javanmard, "Method for Verifying Integrity of an Additive Manufacturing Process" - U.S. Serial No.: 62/615,669

[P.6] M. Javanmard, A. Gholizadeh, D. Voiry, M. Chhowalla, H. Kipen, A. Gow, C. Weisel, R. Laumbach, “Quantification of Inflammatory Molecules in Exhaled Breath Condensate Using Differential Pulse Voltammetry on Reduced Graphene Oxide Sensor” U.S. Provisional Application Serial No. 62/515244.

[P.5] M. Javanmard, “Nano-Electronic Barcoding of Micro-Particles for Multiplexed Assays” U.S. Provisional Application Serial No. 62/277,547.

 

Pre-Rutgers

 

[P.4] M. Javanmard, S. Emaminejad, C. Gupta, R. T. Howe, "Methods and Systems for Orienting Nanomaterials" US Patent App. 61/895,563. Licensed to Multerra.

 

[P.3] M. Javanmard, J. Mok, N. Hurlburt, R. W. Davis, “Dandybodies: DNA-Conjugated Antibodies for Improved Antibody Affinity and Reduced Antibody Cross Reactivity” US Patent App. 61/840,424.

 

[P.2] M. Javanmard, S. Emaminejad, J. Mok, M. Mindrinos, “Using Dielectrophoresis for Selective Elution of Immunobound Beads” US Patent App. 61/50,748. Licensed to Multerra.

 

[P.1] M. Javanmard, J. Mok, M. Mindrinos, R.W. Davis, “New Functionalized Microfluidic Channels Device” US Patent App. 61/098,825, Patent Issued.

 

Invited Talks

[IT.44] Villanova University, Electrical Engineering, Villanova, PA, Scheduled for December 2018.

[IT.43] Carnegie Melon University, Pittsburgh, PA, Scheduled for Nov 2018.

[IT.42] Yale University, School of Medicine, New Haven, CT, Scheduled for November 2018.

[IT.41] American Chemical Society National Meeting, Boston, MA, August 2018.

[IT.40] 16th Annual Congress of International Drug Discovery Science and Technology, Boston, MA, Aug. 2018.

[IT.39] New Technologies to Detect Water Pollutants Symposium, St. Paul, Minnesota, May 2018.

[IT.38] Department of Radiology, School of Medicine, Columbia University, New York, NY, April 2018.

[IT.37] DARPA 2018 ElectRX (Electronic Drug Prescriptions) PI Meeting, Denver, Co, March 2018.

[IT.36] Electrical Engineering Department, Princeton University, Princeton, NJ, November 2017.

[IT.35] National Nanotechnology Coordinated Infrastructure Annual Conference, Singh Center for

                             Nanotechnology, Philadelphia, PA, October 2017.

[IT.34] Temple University, Electrical and Computer Engineering Department, September 2017

[IT.33] National Institute of Standards and Technology, Gaithersburg, MD, July 2017

[IT.32] University of California Los Angeles, Electrical Engineering Department, April 2017

[IT.31] IEEE NEMS Conference, Los Angeles, CA, April 2017.

[IT.30] Stevens Institute of Technology, Electrical Engineering, February 2017.

[IT.29] DARPA 2016 ElectRX (Electronic Drug Prescriptions) PI Meeting, San Diego, November 2016.

[IT.28] Colgate-Palmolive Research, Personal Care Division, Piscataway, NJ, February 2016.

[IT.27] Rutgers University, Department of Material Science and Engineering, December 2015.

[IT.26] Cancer Institute of New Jersey, New Brunswick, October 2015.

[IT.25] IBM TJ Watson, Yorktown, NY July 2015.

[IT.24] New York University, Polytechnic School of Engineering, February 2015.

[IT.23] University of Pennsylvania, Singh Center for Nanotechnology, December 2014.

[IT.22] Maxim Integrated Systems, San Jose, CA, July 2014.

[IT.21] “Rethinking Analog Design” Symposium, Stanford University, May 2014.

[IT.20] North Carolina State University, Electrical and Computer Engineering Department, April 2014.

[IT.19] University of Connecticut, Biomedical Engineering Department, March 12, 2014.

[IT.18] University of Massachusetts Amherst, Electrical Engineering Department, March 10, 2014.

[IT.17] Worcester Polytechnic, Biomedical Engineering Department, February 26, 2014.

[IT.16] New Jersey Institute of Technology, Electrical Engineering Department, February 12, 2014.

[IT.15] Rutgers University, Electrical Engineering Department, February 10, 2014.

[IT.14] University of California Irvine, Biomedical Engineering Department, December 2, 2013.

[IT.13] European Molecular Biology Laboratory, Heidelberg, Germany, October 31, 2013.

[IT.12] University of California Santa Cruz, Electrical Engineering Department, March 4, 2013.

[IT.11] University of California Berkeley, Berkeley Sensors and Actuators Center, January 22, 2013.

[IT.10] NYU Poly, Chemical and Biological Engineering Department, November 15, 2012.

[IT.9] Microfluidics 2012, Santa Clara, CA, October 17, 2012.

[IT.8] Harvard University School of Medicine, Massachusetts General Hospital, April 23, 2012.

[IT.7] NYU Poly, Electrical Engineering Department, March 28, 2012.

[IT.6] University of Minnesota Twin-Cities ECE Department, February 27, 2012.

[IT.5] Georgia Institute of Technology, ECE Department, Atlanta, GA, September 20, 2011.

[IT.4] Institute of Immunity, Transplantation, and Infection Symposium for Nanotechnology and Health, Stanford University, August 13, 2011.

[IT.3] Lawrence Livermore National Laboratory, Mechanical Engineering Department, September 2008.

[IT.2] Bosch Research and Technology Center, July 15, 2008.

[IT.1] Intel Research Corporation, Integrated Biosystems Laboratory, June 13, 2008.

 

 

 

 

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