Publications

2025

• [106] Dilute Magnetic Impurity-Induced Effective Phonon Magnetic Moment in Fe-doped Monolayer MoS2 Mustafa, H., Ye, G., Nnokwe, C.C., Fang, M., Kandil, M., Al-Mahboob, A., Wu, K., Stollenwerk, A.J., Kidd, T.E., Shand, P., Sadowski, J.T., Yang, E.-H., Zhou, Y., He, R., & Jin, W. (2025). 2D Materials, 12, 041002.

• [105] Effects of Excitation Field Amplitude on Magnetic Particle Imaging Performance: A Modeling Study Azizi, E., Li, C., Gomez-Pastora, J., He, R., & Wu, K. (2025). Journal of Physics D: Applied Physics, 58, 305002.

• [104] Magnetic-assisted Manipulation of Rare Blood Cells for Diagnosis: A Systematic Review Iyer, P., Wu, X., Choe, H., Tran, L.N.T., González, K.M.P., Rezaei, B., Mostufa, S., Azizi, E., Karampelas, I.H., Wu, K., Chalmers, J., & Gomez-Pastora, J. (2025). Biotechnology and Bioengineering, 2025, 1–41.
• [103] Multiplexed Detection in Magnetic Particle Spectroscopy: A Systematic Parameter Analysis Chugh, V.K., Liang, S., Hopper, M.S., Dey, A., Krishna, V.D., Cheeran, M.C.-J., Wu, K., & Wang, J.-P. (2025). *Physical Review Applied *, 23, 064021.
• [102] Blood Cell Separation with Magnetic Techniques: A Critical Review Paz Gonzalez, K. M., Tran, L. N. T., Iyer, P. R., Wu, X., Choe, H., Rezaei, B., Mostufa, S., Azizi, E., Karampelas, I., Zeng, M., Wu, K., Chalmers, J., Gomez-Pastora, J. (2025). Lab on a Chip, 2025, 25, 2521-2565.
• [101] Investigation of Magnetic Nanoparticle Recovery Using A Quadrupole Magnetic Field Via Numerical Simulation and SAXS Wu, X., Choe, H., Ciannella, S., Paz Gonzalez, K. M., Tran, L. N. T., Iyer, P. R., Yunker, B. A., Karampelas, I. H., Wu, K., Zborowski, M. , Wyslouzil, B., Chalmers, J., & Gomez-Pastora, J. (2025). Separation and Purification Technology, 372, 133504.
• [100] Origin of Large Effective Phonon Magnetic Moments in Monolayer MoS2 Mustafa, H., Nnokwe, C., Ye, G., Fang, M., Chaudhary, S., Yan, J.-A., Wu, K., Cunningham, C. J., Hemesath, C. M., Stollenwerk, A. J., Shan d, P. M., Yang, E.-H., Fiete, G. A., He, R., & Jin, W. (2025). ACS Nano, 2025, 19, 11, 11241–11248.

• [99] Characterizing the Physicochemical Properties of Magnetic Nanoparticles by A Surface Plasmon Resonance Approach Mostufa, S., Rezaei, B., Azizi, E., Wang, Y. A., Li, C., Gomez-Pastora, J., He, R., & Wu, K. (2025). AIP Advances, 15, 035022.

• [98] Numerical Analysis of Hybrid Electromagnetic Coil Designs for Efficient Gradient Field Generation in Magnetic Particle Imaging Mostufa, S., Azizi, E., Rezaei, B., Li, C., Gomez-Pastora, J., He, R., & Wu, K. (2025). AIP Advances, 15, 035217.

• [97] Trajectory Analysis of Single Magnetic Bead Under Elliptical Cylindrical Magnet and Rotating Field Li, R., Sun, J., Shi, Z., Zhao, R., Liu, X., Xin, S., Wang, N., Shui, X., Du, W., & Wu, K. (2025). Journal of Magnetism and Magnetic Ma terials, 620, 172934.
• [96] Micromagnetic Stimulation (μMS) Controls Dopamine Release: An in vivo Study Using WINCS Harmoni Saha, R., Goyal, A., Yuen, J., Oh, Y., Bloom, R., Benally, O. J., Wu, K., Netoff, T. I., Low, W. C., Bennet, K., Lee, K. H., Shin, H., & W ang, J.-P. (2025). Biomedical Physics & Engineering Express, 11, 025058.

• [95] Perspective: Magnetic Quantum Sensors for Biomedical Applications (HOT) Wu, K., He, R. (2025). Nanotechnology, 36, 152501.

• [94] Study and Optimization on Hyperthermia Performance of Magnetic Fluids Modeled by Coupled Brownian-Néel Rotations Xin, S., Sun, J., Shi, Z., Li, R., Liu, X., Wang, N., Weaver, J.B., & Wu, K. (2025). Journal of Applied Physics, 137, 054702.

• [93] Computational Predictions on the Magnetic Particle Imaging Performance of Tracers Subjected to Magnetic Dipole-Dipole Interact ions Azizi, E., Mostufa, S., Rezaei, B., Xin, S., Sun, J., Shi, Z., Gomez-Pastora, J., & Wu, K. (2025). IEEE Transactions on Magnetics, 2 025, 61, 9, 6500405.
• [92] Tuning the Magnetic Properties of CrI3 Using Ni Thin Film Deposition for Applications in Spintronic Devices Nnokwe, C., Cunningham, C. J., Liu, W., Ye, G., Nguyen, T., Wu, K., Hemesath, C., Sadler, C., Lukashev, P., Zhai, Z., Lv, B., Yan, J.-A., Shand, P. M., Stollenwerk, A. J., & He, R. (2025). ACS Applied Nano Materials, 2025, 8, 5, 2412–2420.
• [91] Applying Stochastic Langevin Function with Coupled Brownian-Néel Relaxations to Study the Dynamic Magnetizations of Nanopartic le Tracers in Magnetic Particle Imaging Azizi, E., Mostufa, S., Rezaei, B., Xin, S., Sun, J., Shi, Z., Gomez-Pastora, J., & Wu, K. (2025). Journal of Physics D: Applied Physic s, 58, 135002.
• [90] Investigation on the Magnetic Hyperthermia Performance of Commercial Iron Oxide Magnetic Nanoparticles Rezaei, B., Mostufa, S., Azizi, E., Wang, Y. A., Li, C., Gomez-Pastora, J., He, R., & Wu, K. (2025). IEEE Transactions on Magnetics, 2025, 61, 9, 5400305.
• [89] Effect of Tracer Size Distribution on Magnetic Particle Imaging Performance Azizi, E., Rezaei, B., Mostufa, S., Liang, S., Wang, Y. A., Chugh, V., Wang, J.-P., Li, C., Gomez-Pastora, J., He, R., & Wu, K. (2025). ** Physica Scripta**, 100, 025529.
• [88] Printing Rare-Earth-Free (REF) Magnetic Inks: Synthesis, Formulation, and Device Applications Moni, H.-E., Rezaei, B., Karampelas, I. H., Saeidi-Javash, M., Gómez-Pastora, J., Wu, K. & Zeng, M. (2025). Nanoscale, 2025,17, 4830 -4853.
• [87] Ultrasensitive Terahertz Metamaterial Sensor Based on Planar Metal-Insulator-Metal Structure Liu, X., Sun, J., Shi, Z., Xiu, S., Yang, C., Hou, Y., Xin, S., Li, R., Zhang, L., & Wu, K. (2025). IEEE Sensors Journal, 25, 3, 451 1 - 4519.

  2024

• [86] Additive Manufacturing of Magnetic Materials for Energy, Environment, Healthcare, and Industry Applications Rezaei, B., Moni, H.-E., Karampelas, I. H., Sharma, A., Mostufa, S., Azizi, E., Liu, X., Zeng, M., Gómez-Pastora, J., He, R., Wu, K. (2024 ). Advanced Functional Materials. 2024, 2416823.
• [85] Magnetic Particle-Assisted Sensing and Magnetic Biosensors Chen, D., Zardan Gomez De La Torre, T., Wei, F., Tian, B., Wu, K. (2024). Frontiers in Bioengineering and Biotechnology. 2024, 12, 1
• [84] Roadmap on Magnetic Nanoparticles in Nanomedicine (HOT) Wu, K., Wang, J.P., Natekar, N., Ciannella, S., González-Fernández, C., Gomez-Pastora, J., Bao, Y., Liu, J., Liang, S., Wu, X., Tran, L.N. T., Paz González, K.M., Choe, H., Strayer, J., Iyer, P.R., Chalmers, J., Chugh, V.K., Rezaei, B., Mostufa, S., Tay, Z.W., Saayujya, C., Huynh, Q., Bryan, J., Kuo, R., Yu, E., Chandrasekharan, P., Fellows, B., Conolly, S., Hadimani, R.L., El-Gendy, A.A., Saha, R., Broomhall, T.J., Wright, A.L., Rotherham, M., El Haj, A.J., Wang, Z., Liang, J., Abad-Díaz-de-Cerio, A., Gandarias, L., Gubieda, A.G., García-Prieto, A., Fdez-Gubieda, M.L. (2024). Nanotechnology. 2025, 36, 042003.
• [83] An Integrated Micro-Heating System for On-Chip Isothermal Amplification of African Swine Fever Virus Genes Sun, J., Shi, Z., Tan, Q., Zhong, M., Wang, N., Xin, S., Liu, X., Li, R., Ma, Y., Wu, K., Cui, Y., & Hui, W. (2024). Small. 2024, 24
• [82] Investigation on the Focusing and Separation of Polystyrene Microbeads in An Integrated Microfluidic System Using Magnetized F unctionalized Flexible Micro-magnet Arrays Chen, S., Sun, J., Shi, Z., Liu, X., Ma, Y., Li, Ru., Xin, S., Wang, N., Li, X., & Wu, K. (2024). Microfluidics and Nanofluidics. 28 , 8, 1-15.
• [81] Micromagnetic Neural Stimulation and Spintronic Neural Sensing Saha, R., Tonini, D., Hopper, M. S., Goyal, A., Yuen, J., Oh, Y., Sanger, Z., Faramarzi, S., Shiao, M., Van Helden, D., Bloom, R. P., Bena lly, O. J., Wu, K., Keirstead, S. A., Netoff, T. I., Low, W. C., Osborn, J., Bennet, K. E., Lee, K. H., Shin, H., & Wang, J.P. (2024). IEEE. 2024 IEEE International Magnetic Conference (INTERMAG).
• [80] Magnetic Particle Spectroscopy (MPS)-Based Bioassays Wu, K., Chugh, V.K., Krishna, V.D., di Girolamo, A., Wang, Y.A., Cheeran, M.C., & Wang, J.P. (2024). IEEE. 2024 IEEE International M agnetic Conference (INTERMAG).
• [79] Effect of Polymer and Cell Membrane Coatings on Theranostic Applications of Nanoparticles: A Review Rezaei, B., Harun, A., Wu, X., Iyer, P. R., Mostufa, S., Ciannella, S., Karampelas, I. H., Chalmers, J., Srivastava, I., Gómez-Pastora, J. , & Wu, K. (2024). Advanced Healthcare Materials. 2024, 2401213.

• [78] Spintronic Devices for Biomedical Applications Mostufa, S., Liang, S., Chugh, V.K., Wang, J.P., & Wu, K. (2024). npj Spintronics. 2024, 2, 1, 26.

• [77] Advancements and Perspectives in Optical Biosensors Mostufa, S., Rezaei, B., Ciannella, S., Yari, P., Gómez-Pastora, J., He, R., & Wu, K. (2024). ACS Omega, 2024, 9, 23, 24181–24202.

• [76] Magnetic Nanoparticles for Magnetic Particle Imaging (MPI): Design and Applications Rezaei, B., Tay, Z., Mostufa, S., Manzari, O.N., Azizi, E., Ciannella, S., Moni, H.E.J., Li, C., Zeng, M., Gómez-Pastora, J., & Wu, K. (20 24). Nanoscale, 2024, 16, 11802 – 11824.
• [75] Planar Microcoil Arrays for in vitro Cellular-Level Micromagnetic Activation of Neurons Saha, R., Benally, O.J., Faramarzi, S., Bloom, R., Wu, K., Tonini, D., Shiao, M., Keirstead, S.A., Low, W.C., Netoff, T.I., & Wang, J.P. ( 2024). Journal of Vacuum Science & Technology B. 42, 3, 033001.
• [74] Electric Field Dropping Effect Enhanced Extraordinary Sensitivity of THz Electromagnetically Induced Transparency Metamaterial Liu, X., Sun, J., Shi, Z., Xiu, S., Cui, Y., Hou, Y., Li, R., Wang, N., Zhang, L., Li, X., & Wu, K. (2024). IEEE Sensors Journal, 20 24, 24, 6, 7807 - 7815.
• [73] Magnetic Nanoparticles: A Review on Synthesis, Characterization, Functionalization, and Biomedical Applications Rezaei, B., Yari, P., Sanders, S.M., Wang, H., Chugh, V.K., Liang, S., Mostufa, S., Xu, K., Wang, J.P., Gómez-Pastora, J., & Wu, K. (2024) . Small, 20, 5, 2304848. (TOP Cited | TOP Viewed)

  2023

• [72] SPIONs Magnetophoresis and Separation via Permanent Magnets: Biomedical and Environmental Applications Wu, X., Ciannella, S., Choe, H., Strayer, J., Wu, K., Chalmers, J., & Gómez-Pastora, J. (2023). Processes, 2023, 11, 12, 3316.

• [71] Kinetic and Parametric Analysis of the Separation of Ultra-Small, Aqueous Superparamagnetic Iron Oxide Nanoparticle Suspension s under Quadrupole Magnetic Fields Ciannella, S., Wu, X., Gonzalez-Fernandez, C., Rezaei, B., Strayer, J., Choe, H., Wu, K., Chalmers, J., & Gómez-Pastora, J. (2023). Mic romachines, 2023, 14, 11, 2107.
• [70] Nanomaterial-Based Biosensors for SARS-CoV-2 and Future Epidemics Yari, P., Liang, S., Chugh, V.K., Rezaei, B., Mostufa, S., Krishna, V.D., Saha, R., Cheeran, M.C., Wang, J.P., Gómez-Pastora, J., & Wu, K. (2023). Analytical Chemistry, 2023, 95, 42, 15419–15449.
• [69] Theoretical Investigation on the Metamaterials Based on the Magnetic Template-Assisted Self-Assembly of Magnetic–Plasmonic Nan oparticles for Adjustable Photonic Responses Sun, J., Shi, Z., Liu, X., Ma, Y., Li, R., Chen, S., Xin, S., Wang, N., Jia, S., & Wu, K. (2023). Journal of Physical Chemistry B, 2 023, 127, 40, 8681–8689.
• [68] Giant Magnetoresistance Based Biosensors for Cancer Screening and Detection Mostufa, S., Rezaei, B., Yari, P., Xu, K., Gómez-Pastora, J., Sun, J., Shi, Z., & Wu, K. (2023). ACS Applied Bio Materials, 2023, 6, 10, 4042–4059.
• [67] Static and Dynamic Magnetization Responses of Self-Assembled Magnetic Nanoparticle Chains Chugh, V., Liang, S., Tonini, D., Saha, R., Liu, J., Yari, P., Krishna, V.D., Cheeran, M.C., Wu, K., & Wang, J.P. (2023). Journal of Ph ysical Chemistry C, 2023, 127, 37, 18494–18505.

• [66] Metamaterial As Perfect Absorber for High Sensitivity Refractive Index Based Biosensing Applications at Infrared Frequencies Mostufa, S., Yari, P., Rezaei. B., Xu, K., Sun, J., Shi, Z., & Wu, K. (2023). Journal of Physics D: Applied Physics, 56, 445104.

• [65] Flexible Magnetic Field Nanosensors for Wearable Electronics: A Review Mostufa, S., Yari, P., Rezaei, B., Xu, K., & Wu, K. (2023). ACS Applied Nano Materials, 2023, 6, 15, 13732–13765.

• [64] Static and Dynamic Magnetization Models of Magnetic Nanoparticles: An Appraisal Yari, P., Chugh, V., Saha, R., Tonini D., Rezaei, B., Mostufa, S., Xu, K., Wang, J.P., & Wu, K. (2023). Physica Scripta, 98, 082002.

• [63] Impact of microcoil shape and the efficacy of soft magnetic material cores in focal micromagnetic neurostimulation Saha, R., Wu, K., & Wang, J.P. (2023). IEEE, 2023 11th International IEEE/EMBS Conference on Neural Engineering (NER).

• [62] Micromagnetic Stimulation (μMS) Dose-Response of the Rat Sciatic Nerve Saha, R., Sanger, Z., Bloom, R., Benally, O., Wu, K., Tonini, D., Low, W.C., Keirstead, S., Netoff, T.I., & Wang, J.P. (2023). Journal of Neural Engineering, 20, 036022.

• [61] Magnetic Particle Spectroscopy for Point-of-Care: A Review on Recent Advances Yari, P., Rezaei, B., Dey, C., Chugh, V.K., Veerla, N.V.R.K., Wang, J.-P., & Wu, K. (2023). Sensors, 2023, 23, 4411.

• [60] A method for multiplexed and volumetric-based magnetic particle spectroscopy bioassay: mathematical study Chugh, V., Liang, S., Yari, P., Wu, K., & Wang, J.P. (2023). Journal of Physics D: Applied Physics, 56, 315001.

• [59] Magnetic Field Detection using Spin-torque Nano-oscillator Combined with Magnetic Flux Concentrator Tonini, D., Saha, R., Wu, K., & Wang, J.P. (2023). AIP Advances, 13, 035228.

• [58] Recent Advances in Magnetoresistance Biosensors: A Short Review Dey, C., Yari, P., & Wu, K. (2023). Nano Futures, 7, 012002.

• [57] Ultra-Flexible Giant Magnetoresistance Biosensors for Lab-on-A-Needle Biosensing Su, D., Wu, K., Srinivasan, K., Nemati, Z., Zamani, R., Chugh, V.K., Saha, R., Franklin, R., Modiano, J., Stadler, B. and Wang, J.P. (2023 ). Advanced Materials Interfaces, 2201417.
• [56] GMR Biosensing with Magnetic Nanowires as Labels for the Detection of Osteosarcoma Cells Su, D., Um, J., Moreno, J., Nemati, Z., Srinivasan, K., Chen, J., Zamani, R., Shore, D., Wu, K., Kosel, J., Modiano, J., Franklin, R., Wan g, J.-P., & Stadler, B. (2023). Sensors and Actuators A: Physical, 350, 114115.
• [55] Frequency and Amplitude Optimizations for Magnetic Particle Spectroscopy Applications Chugh, V.K., di Girolamo, A., V.K., Krishna, V.D., Wu, K., Cheeran, M.C., & Wang, J.P. (2023). Journal of Physical Chemistry C, 2023 , 127, 1, 450–460.

  2022

• [54] Feasibility study of magnetic sensing for detecting single-neuron action potentials Tonini, D., Wu, K., Saha, R., & Wang, J. P. (2022). Annals of Biomedical Science and Engineering, 6(1), 019-029.

• [53] Five-Minute Magnetic Nanoparticle Spectroscopy-Based Bioassay for Ultrafast Detection of SARS-CoV-2 Spike Protein Wu, K., Chugh, V.K., Krishna, V.D., Wang, A. (Y.Q.), Gordon, T.D., Cheeran, M.C., & Wang, J.P. (2022). ACS Applied Nano Materials, 2 022, 5, 12, 17503–17507.

• [52] Giant Magnetoresistance Biosensors for Food Safety Applications Liang, S., Sutham, P., Wu, K., Mallikarjunan, K., & Wang, J.P. (2022). Sensors, 22, 15, 5663.

• [51] Short Commentary - Giant Magnetoresistance-Based Biosensors for Next Generation High throughput, Point-of-Care Cancer Diagnosi s Liang, S., Wu, K., & Wang, J.P. (2022). 21st Century Pathology, 2, 2, 118.

• [50] Magnetic Nanoparticles and Magnetic Particle Spectroscopy-based Bioassays: A 15-year Recap Wu, K., Liu, J., Chugh, V.K., Liang, S., Saha, R., Krishna, V.D., Cheeran, M.C., & Wang, J.P. (2022). Nano Futures, 6, 022001.

• [49] Giant Magnetoresistance Biosensors in Biomedical Applications Wu, K., Tonini, D., Liang, S., Saha, R., Chugh, V.K., & Wang, J.P. (2022). ACS Applied Materials & Interfaces, 2022, 14, 8, 9945–996
• [48] Strength-frequency curve for micromagnetic neurostimulation through excitatory postsynaptic potentials (EPSPs) on rat hippocam pal neurons and numerical modeling of magnetic microcoil (μcoil) Saha, R., Faramarzi, S., Bloom, R., Benally, O.J., Wu, K., di Girolamo, A., Tonini, D., Keirstead, S.A., Low, W.C., Netoff, T.I., & Wang, J.P. (2022). Journal of Neural Engineering, 19, 016018.
• [47] A review on magnetic and spintronic neurostimulation: challenges and prospects Saha, R., Wu, K., Bloom, R., Liang, S., Tonini, D., & Wang, J.P. (2022). Nanotechnology, 33, 182004.

2021

• [46] One-step, Wash-free, Nanoparticle Clustering-based Magnetic Particle Spectroscopy Bioassay Method for Detection of SARS-CoV-2 Spike and Nucleocapsid Proteins in Liquid Phase Wu, K., Chugh, V.K., Krishna, V.D., di Girolamo, A., Wang, A. (Y.Q.), Saha, R., Liang, S., Cheeran, M.C., & Wang, J.P. (2021). ACS Appl ied Materials & Interfaces, 2021, 13, 37, 44136–44146.

• [45] Large Superparamagnetic FeCo Nanocubes for Magnetic Theranostics Liu, J., Wu, K., He, S., Bai, J., Xu, Y, & Wang, J.P. (2021). ACS Applied Nano Materials, 2021, 4, 9, 9382–9390.

• [44] Magnetic Particle Spectroscopy with One-stage Lock-in Implementation for Magnetic Bioassays with Improved Sensitivities Chugh, V.K., Wu, K., Krishna, V.D., di Girolamo, A., Bloom, R.P., Wang, A. (Y.Q.), Saha, R., Liang, S., Cheeran, M.C., & Wang, J.P. (2021) . Journal of Physical Chemistry C, 2021, 125, 31, 17221–17231.
• [43] Stable and Monodisperse Iron Nitride Nanoparticle Suspension for Magnetic Diagnosis and Treatment: Development of Synthesis an d Surface Functionalization Strategies Wu, K., Liu, J., Saha, R., Ma, B., Su, D., Chugh, V.K., & Wang, J.P. (2021). ACS Applied Nano Materials, 2021, 4, 5, 4409–4418.
  • Technology Commercialization

• [42] Investigation of Commercial Iron Oxide Nanoparticles: Structural and Magnetic Property Characterization Wu, K., Liu, J., Saha, R., Peng, C., Su, D., Wang, A. (Y.Q.), & Wang, J.P. (2021). ACS Omega, 2021, 6, 9, 6274–6283.

• [41] A Portable Magnetic Particle Spectrometer for Future Rapid and Wash-Free Bioassays Wu, K., Chugh, V.K., di Girolamo, A., Liu, J., Saha, R., Su, D., Krishna, V.D., Nair, A., Davies, W., Wang, A. (Y.Q.), Cheeran, M.C., & Wa ng, J.P. (2021). ACS Applied Materials & Interfaces, 2021, 13, 7, 7966–7976.

  2020

• [40] Magnetic Nanosensor-Based Virus and Pathogen Detection Strategies Before and During COVID-19 Wu, K., Saha, R., Su, D., Krishna, V.D., Liu, J., Cheeran, M.C., & Wang, J.P. (2020). ACS Applied Nano Materials, 2020, 3, 10, 9560-
• [39] Magnetic Particle Spectroscopy-Based Handheld Device for Wash-Free, Easy-to-Use, and Solution-Phase Immunoassay Applications Chugh, V.K., Wu, K., Nair, A., di Girolamo, A., Schealler, J., Vuong, H., Davies, W., Wall, A., Whitely, E., Saha, R., Su, D., & Wang, J.P . (2020). Frontiers in Biomedical Devices, vol. 83549, p. V001T10A011. American Society of Mechanical Engineers, 2020.

• [38] Magnetic Nanotechnologies for Early Cancer Diagnostics with Liquid Biopsies: A Review Su, D., Wu, K., Saha, R., Liu, J., & Wang, J.P. (2020). Journal of Cancer Metastasis and Treatment, 2020; 6:19.

• [37] Spin current nano-oscillator (SCNO) as a potential frequency-based, ultra-sensitive magnetic biosensor: a simulation study Saha, R., Wu, K., Su, D., & Wang, J.P. (2020). Nanotechnology, 31, 375501.

• [36] Magnetic Particle Spectroscopy: A Short Review of Applications using Magnetic Nanoparticles Wu, K., Su, D., Saha, R., Liu, J., Chugh, V.K., & Wang, J.P. (2020). ACS Applied Nano Materials, 2020, 3, 6, 4972–4989.

• [35] Irregularly Shaped Iron Nitride Nanoparticles as A Potential Candidate for Biomedical Applications: From Synthesis to Characte rization Wu, K., Liu, J., Saha, R., Ma, B., Su, D., Peng, C., Sun, J., & Wang, J.P. (2020). ACS Omega, 2020, 5, 20, 11756–11767.

• [34] Magnetic Particle Spectroscopy for Detection of Influenza A Virus Subtype H1N1 Wu, K., Liu, J., Saha, R., Su, D., Krishna, V.D., Cheeran, M.C. and Wang, J.P. (2020). ACS Applied Materials & Interfaces, 12(12), 1 3686-13697. * IEEE Spectrum

• [33] Design and fabrication of integrated magnetic field sensing system with enhanced sensitivity Feng, Y., Chen, J-Y., Wu, K., & Wang, J.P. (2020). Journal of Magnetism and Magnetic Materials, 166728.

• [32] High-moment magnetic nanoparticles Liu, J., Su, D., Wu, K., & Wang, J.P. (2020). Journal of Nanoparticle Research, 22(3), pp.1-16.

• [31] Deterministic Field-free Switching of a Perpendicularly Magnetized Ferromagnetic Layer via the Joint Effects of Dzyaloshinskii -Moriya Interaction, Damping-like and Field-like Spin-orbit Torques: An Appraisal Wu, K., Su, D., Saha, R., & Wang, J.P. (2020). Journal of Physics D: Applied Physics, 53, 205002.

• [30] Advances in Magnetoresistive Biosensors Su, D., Wu, K., Saha, R., Peng, C., & Wang, J. P. (2020). Micromachines, 2020, 11, 34.

2019

• [29] Continuous Separation of Magnetic Beads Using a Y-shaped Microfluidic System Integrated with Hard-magnetic Elements Sun, J., Wu, K., Su, D., Guo, G., & Shi, Z. (2019). Journal of Physics D: Applied Physics, 53, 035004.

• [28] Magnetic field enhanced coercivity of Fe nanoparticles embedded in antiferromagnetic MnN films Liu, J., Zhang, D., Wu, K., Hang, X., & Wang, J.P. (2019). Journal of Physics D: Applied Physics, 53, 035003.

• [27] Spin-orbit Torque and Spin Hall Effect-based Cellular Level Therapeutic Spintronic Neuromodulator: A Simulation Study Wu, K., Su, D., Saha, R., & Wang, J.P. (2019). Journal of Physical Chemistry C, 123, 40, 24963-24972.

• [26] Magnetic nanoparticles in nanomedicine: a review of recent advances Wu, K., Su, D., Liu, J., Saha, R., & Wang, J. P. (2019). Nanotechnology, 30, 502003.

• [25] Magnetic Nanoparticle Relaxation Dynamics-Based Magnetic Particle Spectroscopy for Rapid and Wash-Free Molecular Sensing Wu, K., Liu, J., Su, D., Saha, R., & Wang, J.P. (2019). ACS Applied Materials & Interfaces, 11, 26, 22979-22986.

• [24] Investigating the Effect of Magnetic Dipole-Dipole Interaction on Magnetic Particle Spectroscopy (MPS): Implications for Magne tic Nanoparticle-based Bioassays and Magnetic Particle Imaging (MPI) Wu, K., Su, D., Saha, R., Liu, J., & Wang, J.P. (2019). Journal of Physics D: Applied Physics, 52, 335002.

• [23] Magnetic Particle Spectroscopy-based Bioassays: Methods, Applications, Advances, and Future Opportunities Wu, K., Su, D., Saha, R., Wong, D., & Wang, J. P. (2019). Journal of Physics D: Applied Physics, 52, 173001.

• [22] Estimating Saturation Magnetization of Superparamagntic Nanoparticles from Liquid Phase Wu, K., Su, D., Liu, J., & Wang, J. P. (2019). Journal of Magnetism and Magnetic Materials, 471, 394-399.

• [21] Detection of Influenza A Virus in Swine Nasal Swab Samples With A Wash-Free Magnetic Bioassay and A Handheld Giant Magnetoresi stance Sensing System Su, D., Wu, K., Krishna, V., Klein, T., Liu, J., Feng, Y., Perez A. M., Cheeran, M. C. -J., & Wang, J. P. (2019). Frontiers in Microbio logy, 10, 1077.
• [20] Tunable magnetic domain walls for therapeutic neuromodulation at cellular level: Stimulating neurons through magnetic domain w alls Su, D., Wu, K., Saha, R., & Wang, J. P. (2019). Journal of Applied Physics, 126, 183902.
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  • Featured on Cover

• [19] Large-Area GMR Bio-Sensors based on Reverse Nucleation Switching Mechanism Su, D., Wu, K., & Wang, J. P. (2019). Journal of Magnetism and Magnetic Materials, 473, 484-489.

• [18] Tunable magnetic skyrmions in spintronic nanostructures for cellular-level magnetic neurostimulation Saha, R., Wu, K., Su, D., & Wang, J. P. (2019). Journal of Physics D: Applied Physics, 52, 465002.

• [17] Development of a multiplexed giant magnetoresistive biosensor array prototype to quantify ovarian cancer biomarkers Klein, T. , Wang, W., Yu, L., Wu, K., Boylan, K., Vogel, R. I., Skubitz, A., & Wang, J. P. (2019). Biosensors & Bioelectronics, 126, 301-307.

  2014-2018

• [16] Nanotechnology: Review of Concepts and Potential Application of Sensing Platforms in Food Safety Krishna, V.D., Wu, K., Su, D., Perez, A.M., & Wang, J.P. (2018). Food Microbiology, 75, 47-54.

• [15] Portable and Rapid GMR Handheld Platform for the Detection of Influenza A Virus Wu, K., Klein, T., Krishna, V.D., Su, D., Perez, A.M., & Wang, J.P. (2017). ACS Sensors, 2(11), 1594-1601.
  • News Release
• [14] Characterizing Physical Properties of Superparamagnetic Nanoparticles in Liquid Phase Using Brownian Relaxation Wu, K., Schliep, K., Zhang, X., Liu, J., Ma, B., & Wang, J.P. (2017). Small, 13(22), 1604135.
  • Featured on Cover

• [13] Magnetic Dynamics of Ferrofluids: Mathematical Models and Experimental Investigations Wu, K., Tu, L., Su, D., & Wang, J.P. (2017). Journal of Physics D: Applied Physics, 50, 8, 085005.

• [12] Magnetic Hyperthermia Performance of Magnetite Nanoparticle Assemblies Under Different Driving Fields Wu, K., & Wang, J.P. (2017). AIP Advances, 7, 5, 056327.
  • Highly Cited

• [11] Localized Detection of Reversal Nucleation Generated by High Moment Magnetic Nanoparticles Using a Large-area Magnetic Sensor Feng, Y., Liu, J., Klein, T., Wu, K., & Wang, J.P. (2017). Journal of Applied Physics, 122, 123901.

• [10] Magnetization Response Spectroscopy of Superparamagnetic Nanoparticles Under Mixing Frequency Fields Wu, K., Batra, A., Jain, S., & Wang, J.P. (2016). IEEE Transactions on Magnetics, 52, 7, 7369960.

• [9] In Vitro Viscosity Measurement on Superparamagnetic Nanoparticle Suspensions Wu, K., Ye, C., Liu, J., Wang, Y., Feng, Y., & Wang, J.P. (2016). IEEE Transactions on Magnetics, 52, 7, 7405335.

• [8] Giant Magnetoresistance-based Biosensor for Detection of Influenza A Virus Krishna, V. D., Wu, K., Perez, A.M., & Wang, J.P. (2016). Frontiers in Microbiology, 7, 400.

• [7] Magnetic properties of cubic FeCo nanoparticles with anisotropic long chain structure Liu, J., Wu, K., & Wang, J.P. (2016). AIP Advances, 6, 5, 056126.

• [6] Superparamagnetic nanoparticlebased viscosity test Wu, K., Liu, J., Wang, Y., Ye, C., Feng, Y., & Wang, J.P. (2015). Applied Physics Letters, 107, 5, 053701.

• [5] A simulation study on superparamagnetic nanoparticle based multi-tracer tracking Wu, K., Batra, A., Jain, S., Ye, C., Liu, J., & Wang, J.P. (2015). Applied Physics Letters, 107, 17, 173701.

• [4] Colorize magnetic nanoparticles using a search coil based testing method Wu, K., Wang, Y., Feng, Y., Yu, L., & Wang, J.P. (2015). Journal of Magnetism and Magnetic Materials, 380, 251-254.

• [3] Evaluation of Hyperthermia of Magnetic Nanoparticles by Dehydrating DNA Yu, L., Liu, J., Wu, K., Klein, T., Jiang, Y., & Wang, J.P. (2014). Scientific Reports, 4, 07216.

• [2] Magnetic nanoparticles colourization by a mixing-frequency method Tu, L., Wu, K., Klein, T., & Wang, J.P. (2014). Journal of Physics D: Applied Physics, 47, 15, 155001.

• [1] Viscosity effect on the brownian relaxation based detection for immunoassay applications Wu, K., Yu, L., Zheng, X., Wang, Y., Feng, Y., Tu, L. & Wang, J.P. (2014). IEEE. In Engineering in Medicine and Biology Society (EMB C), 2014 36th Annual International Conference of the IEEE (pp. 2769-2772).

  Patents

• [7] Wu, K., Chugh, V.K., Wang, J.P. Method and Apparatus for Magnetic Flow Cytometry with Enhanced Multiplicity.
  • Application US 63/562,374. Publication WO2025188838A1.
• [6] Wang, J.P., Chugh, V.K., Wu, K. Magnetic particle spectroscopy method and device.
  • Application PCT/US2024/010484. Publication WO2024148266A1.
• [5] Wang, J.P., Wu, K., Cheeran, M.C.J., Chugh, V.K., Krishna, V.D. Magnetic particle spectroscopy.
  • Application PCT/US2023/068433. Publication WO2023245058A2, WO2023245058A3.
• [4] Wang, J.P., Wu, K., Ma, B., Liu, J. Iron Nitride Nanoparticle Suspension.
  • Application US17/659,953. Publication US20220354973A1.
• [3] Wu, K., Chugh, V.K., Wang, J.P. Magnetic particle spectroscopy method and device.
  • Application PCT/US2021/070401. Publication WO2021212144A1.
  • Application EP21729194.7A. Publication EP4136439A1.
  • Application US17/996,291. Publication US20230204542A1.
• [2] Wang, J.P., Saha, R., Su, D., Wu, K. Nanopatterned soft-magnetic material-based microcoil for highly focused, low-power, implantab le magnetic stimulation. * Application PCT/US2021/025322. Publication WO2021202840A1.
  • Application US17/995,229. Publication US20230173293A1.
• [1] Wu, K., Wang, J.P. Magnetic nanoparticle characterization.
  • Application PCT/US2018/016233. Publication WO2018144599A1.

Books & Chapters

Books

• Magnetic Nanoparticles in Nanomedicine. Wu, K., Wang, J.P. (Ed.). (2024). Elsevier B.V. ISBN: 9780443216688.

Book Chapters

• Chapter 2. Micromagnetic Simulation Tools: OOMMF, Mumax3, and COMSOL Multiphysics Hua, C., Wu, K., & Yu, W. Wu, K., Wang, J.P. (Ed.). (2024). Magnetic Nanoparticles in Nanomedicine. Elsevier B.V. ISBN: 9780443216688.
• Chapter 3. Physical Methods for the Synthesis of MNPs Liu, J., Wu, K., & Wang, J.P. Wu, K., Wang, J.P. (Ed.). (2024). Magnetic Nanoparticles in Nanomedicine. Elsevier B.V. ISBN: 9780443216688.
• Chapter 6. Characterization Methods for Magnetic Nanoparticles Rezaei, B., Mostufa, S., & Wu, K. Wu, K., Wang, J.P. (Ed.). (2024). Magnetic Nanoparticles in Nanomedicine. Elsevier B.V. ISBN: 9780443216688.
• Chapter 9. Magnetic Nanoparticles for Neurostimulation Saha, R., Hopper, M.S., Liang, S., Wu, K., & Wang, J.P. Wu, K., Wang, J.P. (Ed.). (2024). Magnetic Nanoparticles in Nanomedicine. Elsevier B.V. ISBN: 9780443216688.
• Chapter 10. Magnetoresistive (MR) Biosensor Liang, S., Wu, K., & Wang, J.P. Wu, K., Wang, J.P. (Ed.). (2024). Magnetic Nanoparticles in Nanomedicine. Elsevier B.V. ISBN: 9780443216688.
• Chapter 11. Magnetic Particle Spectroscopy (MPS) Biosensor Chugh, V.K., Wu, K., & Wang, J.P. Wu, K., Wang, J.P. (Ed.). (2024). Magnetic Nanoparticles in Nanomedicine. Elsevier B.V. ISBN: 9780443216688.
• Chapter 2. Giant Magnetoresistance (GMR) Materials and Devices for Biomedical and Industrial Applications Wu, K., Su, D., Saha, R., & Wang, J. P. Luo, J., Wang. K., Yang, M. (Ed.). (2022). Spintronics: Materials, Devices, and Applications. John Wiley & Sons Limited. ISBN: 9781119698975.
• Chapter 13. Magnetic Nanoparticle-based Biosensing Wu, K., Su, D., Feng, Y., & Wang, J. P. Thanh, N. T. (Ed.). (2018). Clinical Applications of Magnetic Nanoparticles. CRC Press. ISBN: 9781138051553.