Books


7. Drew A. Hall, Richard S. Gaster, and Shan X. Wang, GMR Biosensors, book chapter in Spin Transport and Magnetism in Electronic Systems, Editors: Evgeny Tsymbal and Igor Žutić, Taylor & Francis, submitted, 2009.


6. Wei Hu, Robert J. Wilson, Ai Leen Koh, Shan X. Wang, Novel Synthetic Magnetic Nanoparticles for Biomedical Applications, ISBN 978-3-639-17835-7, VDM Verlagsservicegesellschaft mbH, in press, 2009.


5. S. X. Wang and G. Li, Advances in GMR Biosensors with Magnetic Nanoparticle Tags: Review and Outlook (Invited Review for Advances in Magnetics), IEEE Trans. Magn., vol. 44, no.7, 1687-1702, 2008.


4. D. W. Lee, L. Li, S. X. Wang, Jiongxin Lu, C. P. Wong, Swapan K. Bhattacharya, and John Papapolymerou, Embedded Passives, book chapter in Materials for Advanced Packaging, Daniel Lu, CP Wong, Eds., Springer, 2008.


3. S. J. Osterfeld and S. X. Wang, MagArray Biochips for Protein and DNA Detection with Magnetic Nanotags: Design, Experiment, and Signal to Noise Ratio, book chapter in Microarrays - Preparation, Microfluidics, Detection Methods, and Biological Applications (Eds.: K. Dill, R. Liu, R. Grodzinsky), Springer, New York, pp. 299-314, 2008.


2. M. A. Seigler, C. B. Murray, T. P. Nolan, S. X. Wang, B. J. Daniels, (editors),  Magnetic Materials, Structures, and Processing for Information Storage, MRS Proceedings, 2001.


1. S. X. Wang and A. M. Taratorin, Magnetic Information Storage Technology, Academic Press, April, 1999.



Conference Papers


26. A. Fu, W. Hu, L. Xu, R. J. Wilson, H. Yu, S. J. Osterfeld, S. S. Gambhir, S. X. Wang, “Protein Functionalized Synthetic Antiferromagnetic Nanoparticles for Biomedical Applications,” Digest of International Magnetics Conf., Sacramento, CA, May 5-8, 2009.


25. D. Lee, K. Saraswat, and S. X. Wang, “Fermi level pinning/depinning and Schottky barrier height modulation in CoFeB/MgO/Ge structure,” Digest of International Magnetics Conf., Sacramento, CA, May 5-8, 2009.


24. D. A. Hall, R. S. Gaster, H. Yu, S. J. Osterfeld, B. Murmann, S. X. Wang, “Multiplexed GMR Biosensor Arrays,” Digest of International Magnetics Conf., Sacramento, CA, May 5-8, 2009.


23. Lee, D.W.; Kyu-Pyung Hwang; Wang, S.X., "Design and fabrication of integrated solenoid inductors with magnetic cores," Electronic Components and Technology Conference, 2008 (ECTC 2008), 58th vol., 701-705, 27-30 May 2008.


22. H. Yu, S. J. Osterfeld, L. Xu, R. L. White, N. Pourmand, S. X. Wang, “Giant Magnetoresistive Biosensors for Molecular Diagnosis: Surface Chemistry and Assay Development,” Proceedings of SPIE Conference, San Diego, California, August 10-14, 2008.


21. S. X. Wang, “Giant Magnetoresistive Biochips for Genetic and Protein Assays,” Digest of the 66th Device Research Conference, Santa Barbara, CA, June 23-5, 2008.


20. W. Hu, R. J. Wilson, C. M. Earhart, A. L. Koh, A. Z. Faranesh, S. Guccione, R. Sinclair and S. X. Wang, “High moment synthetic magnetic nanoparticles for biomedical applications,” Digest of International Magnetics Conf. (Intermag08), Madrid, Spain, May 4-8. 2008.


19. K. D. Wilson, M. Huang, S. X. Wang, J. C. Wu, “Global gene expression changes in human embryonic stem cells after radiation exposure,”  The 6th International Society for Stem Cell Research (ISSCR) Annual Meeting, Philadelphia, PA, USA, June 11-14, 2008


18. R.J. Wilson, W. Hu, A.L. Koh, C. Earhart, R. Sinclair, and S.X. Wang, “Imaging and Controlling Magnetic Chain Formation of Magnetic Nanoparticles,” The 7th International Conference on the Scientific and Clinical Applications of Magnetic Carriers, Vancouver, Canada, May 21-24, 2008. (Digest only)


17. K.L. Tsai, M. Ziaei-Moayyed, N. Klejwa, R.N. Candler, W. Hu, S.X. Wang, and R.T. Howe, “Characterization of magnetic nanoparticle-embedded SU8 for microactuation,” Proceedings of Hilton Head Conference, 2008.


16. S. X. Wang, “Giant magnetoresistive biochips for biomarker detection and genotyping: an overview (invited),” pp. 101-110, in AIP Conference Proceedings (CP1025) on Biomagnetism and Magnetic Biosystems Based on Molecular Recognition Processes, edited by J.A.C. Bland and A. Ionescu, ESF-EMBO Symposium, Sant Feliu de Guixols, Spain, Sept 22-27, 2007.


15. S-J Han, H. Yu, B. Murmann, N. Pourmand, and S. X. Wang, “A high density magnetoresistive biosensor array with drift compensation mechanism,” IEEE International Solid-State Circuits Conference (ISSCC) Dig. Tech. Papers, San Francisco Marriott, CA, USA, February 11-15, 2007.


14. S.-J. Han, H. Yu, L. Xu, R. J. Wilson, N. Pourmand, and S. X. Wang, “CMOS integrated DNA microarray based on GMR sensors,” International Electron Device Meeting (IEDM) Tech. Dig., Paper #28.2, San Francisco, CA, USA, December 11-13, 2006.


13. A. Khitun, M. Bao, J-Y. Lee, K. L. Wang, D.W. Lee, S. X. Wang, and  I. Roshchin,

“Inductively coupled circuits with spin wave bus for information processing,” IEEE International Conference on Communications (ICC 2006), Istanbul, Turkey, 2006.


12. C. Earhart, W. Hu, R. J. Wilson, S. X. Wang, “Self-assembled template for high throughput nanoimprint lithography,” Digests of the 5th International Conference on Nanoimprint and Nanoprint Technology, San Francisco, CA, USA, Nov. 15-17, 2006.


11. S. X. Wang, “Advanced magnetic materials and transducers for information technology and magnetoelectronics,” Proc. Symp. Magnetoelectronics & Superconducting Elec. Eng., p. 54, Beijing, 2002.


10. Z. Wen, R. Fahrig, N. Sun, S. X. Wang, and N. Pelc, “X-ray tube for use in magnetic fields,” Proc. 2230, International Society of Magnetic Resonance and Medicine, 2002.


9. N. X. Sun, A. M. Crawford, and S. X. Wang, "Advanced soft magnetic materials for magnetic recording and integrated inductors", Mat. Res. Soc. Symp. Proc., vol. 721, 249-258, 2002.


8. D. Gardner, A. M. Crawford and S. X. Wang,  “High frequency (GHz) and low resistance integrated inductors using magnetic materials,” IITC Proceedings, 2001.


7. N. X. Sun, S. X. Wang, C. Y. Hung, C. X. Chien, and H.-C. Tong, "Microstructures and soft magnetic properties of high saturation Fe-Co-N thin films", Mat. Res. Soc. Symp. Proc., vol. 614, F.9.2.1-12, 2000.


6. Y. Li, S. X. Wang, F. B. Mancoff, and B. M. Clemens, "Epitaxial growth of atomically flat spin dependent tunneling junctions," Mat. Res. Soc. Symp. Proc., vol. 570, 73-78, 1999.


5. C. Fery, W. E. Bailey, K. Yamada, and S. X. Wang, "Study of natural oxidation of ultra-thin Al layers with in-situ resistance measurement," Mat. Res. Soc. Symp. Proc., vol. 569, 185-190, 1999.


4. S. X. Wang, J. Hong, and K. Sin, "Microstructures and properties of high saturation soft magnetic materials for advanced recording heads," Mat. Res. Soc. Symp. Proc., vol. 517,5, 1998. (Abstract)


3. M. Sharma, J. H. Nickel, and S. X. Wang, "Spin-dependent tunneling junctions with Ta2O5 barrier," Mat. Res. Soc. Symp. Proc., vol. 517, 103-7, 1998.


2. M. H. Kryder, W. P. Jayasekara, and S. X. Wang, "Ultrahigh density magnetic write heads", in the Proceedings of  the  Fourth Symp. on Magnetic Materials, Devices and Processes, Applications to Storage and MEMS, The Electrochemical Society,  pp. 26-9, 1995.


1. S. X. Wang, F. Liu, K. Maranowski, J. Bain, and M. H. Kryder, "Material and processing issues in FeAlN high moment thin film heads", in the Proceedings of the  Symp. on Magnetic Materials, Devices and Processes, The Electrochemical Society, vol. 94-6, pp. 25-35, 1994.


Invited Presentations


   

59. S. X. Wang, “Functional Synthetic Antiferromagnetic Nanoparticles for Magnetic Manipulation and Biomolecule Detection” ECI Conference: Nanotechnology for the Study of Cellular and Molecular Interactions, Il Ciocco Hotel and Conference Center, Barga (Tuscany), Italy, June 14-June 18, 2009.


58. S. X. Wang, “Protein Assays Based on Magnetic Nanotags and GMR Sensors: A New Tool for Fighting Cancer and Rapid Triaging”, Symposium on Bionanomagnetism, International Conference on Magnetics (Intermag), Sacramento, CA, May 4-8, 2009.


57. S. X. Wang, “A new tool for cancer early detection and therapy: ultrasensitive and multiplex protein assay based on magnetic nanotechnology”, Canary Foundation Annual Conference, Stanford, CA, May 4-5, 2009.


56. S. X. Wang, “NanoMagnetic Biochips Ø A New Tool for Fighting Cancer and Rapid Triaging”, 37th Annual Northern California Electronic Materials Symposium, Santa Clara, Apr. 10, 2009.


55. S. X. Wang, “A new tool for cancer detection and therapy monitoring: ultrasensitive and multiplex protein assay based on magnetic nanotechnology”, The inaugural Skippy Frank Translational Medicine Fund Multidisciplinary Cancer Conference, The Quadrus Center, Palo Alto, CA, January 16th and 17th, 2009.


54. S. X. Wang, “Magnetic Nanoparticles for Biomolecular Detection, Manipulation, and Imaging,” Asian Magnetics Conference, Bushan, Korea, Dec. 10-13, 2008.


53. S. X. Wang, “Physically fabricated synthetic magnetic nanoparticles with tunable magnetic properties,” MRS Fall Meeting, Symposium K: Nanomaterials by Design, Boston, Dec. 1-5, 2008.


52. S. X. Wang, “Magneto-nano DNA and protein chips for multiplex molecular diagnostics,” MRS Fall Meeting, in a special Symposium FF:  Nanofunctional Materials, Structures and Devices for Biomedical Applications, Boston, Dec. 1-5, 2008.


51.S. X. Wang, “Rapid and multiplex molecular diagnosis and therapeutic monitoring of cancer based on real-time magnetic nanotag sensing,” National Cancer Institute (NCI) Translational Science Meeting, Washington, DC, November 7-9, 2008.


50. S. X. Wang, “Embedded Integrated Inductors with a Single Layer Magnetic Core: Performance Gains and Trade-offs,” Power Supply on Chip Workshop, Cork, Ireland, Sept 22-24, 2008.


49. D. W. Lee and S. X. Wang, “Fabrication and Analysis of High-Performance Integrated Solenoid Inductor with Magnetic Core,” Invited paper AG-01, International Conference on Magnetics (Intermag), Madrid, Spain, May 4-8, 2008.


48. S. X. Wang, D.W. Lee, K.-P. Hwang, “Comparison of solenoid and spiral integrated inductors,” International Workshop on High Frequency Micromagnetic Devices and Materials, Madrid, Spain, May 9, 2008.


47. C. Earhart and S. X. Wang, “Magnetic sifters and biochips for early diagnosis and therapy monitoring of cancer,” Invited talk in the Symposium: Emerging Nano-based Diagnostics and Therapeutics:  Approaches to Cancer Treatment, American Physical Society March Meeting, New Orleans, March 9-14, 2008.


46. S. X. Wang, “Molecular diagnostics and nanomagnetic biosensors,” Invited Tutorial, American Physical Society March Meeting, New Orleans, March 9-14, 2008.


45. S. X. Wang and Chris Earhart, “Magnetic sifter and nanoparticles for molecular biology and medicine,” MRS Fall Meeting, Boston, Nov.26-30, 2007.


44. S. X. Wang, “CMOS integrated magnetic biochip for cancer diagnostics,” FA-04 in an invited symposium, The International Conference on Magnetism and Magnetic Materials (MMM), Tampa, Nov. 5-9, 2007.


43. S. X. Wang, “Magnetic Nanotechnology for Cancer Diagnostics and Therapy Monitoring,” NCI Alliance for Nanotechnology in Cancer Annual Meeting, Chapel Hill, North Carolina, Oct.16-18, 2007. (Also moderated a panel discussion on Nanotechnology Devices for Early Diagnosis of Cancer.)


42. S. X. Wang, “CMOS integrated magnetic biochip with high density spin valve sensor arrays,” European Symposium on Biomagnetism and Magnetic Biosystems Based on Molecular Recognition Processes (ESF-EMBO Symposium), Sant Feliu de Guixols, Spain, Sept 22-27, 2007.


41. S. X. Wang, “Nanomagnetic biosensors and biochips for pathogen detection and cancer diagnostics,” Defense Science Research Council (DSRC) meeting, Santa Cruz, California, July 19, 2007.


40. S. X. Wang, “Nanomagnetic biosensors: status and outlook,” The 6th International Storage Technology Symposium (ISTS), Kalamata, Greece, June 17 - 22, 2007.


39. S. X. Wang, “Design, fabrication, and application of nanomagnetic biosensors and biochips,” International Symposium on Advanced Magnetic Materials and Applications (ISAMMA), Jeju, Republic of Korea, May 28 - June 1, 2007.


38. S. X. Wang, “Magnetic nanotechnology for early diagnosis and therapy of cancer,” BIO International Convention, Boston, MA, May 6-9, 2007.


37. S. X. Wang, “Spin valve sensors for ultrasensitive detection of superparamagnetic nanoparticles for biological applications", MRS Spring Meeting, San Francisco, April 9-13, 2007.


36. S. X. Wang, “Magnetic nanoparticles and biochips for cancer diagnostics,” The 20th International Conference on Bio and Pharmaceutical Science and Technology (ICBPST06), San Diego, CA, December 18-21, 2006.


35. S. X. Wang, “Magneto-Nano Biosensors for Medicine,” The 2nd Annual Meeting of American Academy of Nanomedicine, Washington, DC, Spet. 9-10, 2006.


34. S. X. Wang, “Magneto-nano biochips for sensitive detection of nucleic acids and proteins,” The 11th International Symposium of Society of Chinese Bioscientists in America (SCBA), W9-05, San Francisco, July 21, 2006.


33. S. X. Wang, “Functionalization and characterization of magnetic biochips for sensitive DNA detection,” Pacific Polymer Federation IX Conference, Maui, Hawaii, Dec. 10-14, 2005.


32. S. X. Wang, “MagArray: a magnetic biochip for rapid diagnosis of infectious disease”, The Genomic Revolution: 3rd Annual National Academies Keck Futures Initiative Conference, Irvine, CA, Nov. 10-13, 2005,.


31. S. X. Wang, “Magnetic magic in nanotechnology and biosensing,” T. D. Lee Lectures, Chinese Academy of Sciences Graduate School, Beijing, China, June 30, 2005.


30. S. X. Wang, Liangliang Li, and Dok Won Lee, “Low resistance and high quality factor magnetic inductors: materials and design issues,” International Workshop on High Frequency Micromagnetic Devices and Materials, Sendai, Japan, 2005.


29. S. X. Wang, “Magnetic microarray for ultrasensitive molecular diagnostics,” MRS Fall Meeting, Boston, 2004.


28. S. Sun, H. Zeng, H. Yu, D. Robinson, G. Li, R. White and S. X. Wang, “Synthesis and surface modification of monodisperse magnetic nanoparticles for biological applications,” American Vacuum Society 51st International Symposium, Session MI-TuA, Anaheim, 2004. (SXW delivered the invited talk.)


27. S. X. Wang, “Challenges in nano-biomagnetic sensors,” MRSEC Symposium on Emerging Challenges on Nanomagnetics, University of Nebraska, Lincoln, Nebraska, Sept. 24, 2004.


26. S. X. Wang, “MagArrayTM: Magnetic DNA Microarray”, Diskcon 2003, San Jose, 2003.


25. N. X. Sun and S. X. Wang, “Damping criterion of magnetization in ferromagnetic ellipsoids,” IEEE Magnetic Recording Conference, 2003.


24. S. X. Wang, et al., “Design and Fabrication of Bio-magnetic Sensors and Magnetic Nanobead Labels for DNA Detection and Identification,” paper EC-01, International Conference on Magnetics (Intermag), Boston, 2003.


23. S. X. Wang, “Advanced magnetic materials and transducers”, American Physical Society March Meeting, Austin, Texas, 2003.


22. S. X. Wang, “Advanced magnetic materials and transducers: enabling information explosion and magnetic nanotechnology,” Frontiers in Magnetism Research,Advanced Light Source Workshop, Berkeley, 2002.


21. S. Sun, S. X. Wang, G. Li, R. L. White, J. Kemp, “Magnetic nanoparticles for DNA labeling”, The 47th Annual Conference on Magnetism and Magnetic Materials (MMM), Tampa, 2002.


20. S. X. Wang, “Advanced magnetic materials and transducers for information technology and magnetoelectronics,” Symp. Magnetoelectronics & Superconducting Elec. Eng., Beijing, 2002.


19. S. X. Wang, “Advanced magnetic materials and transducers: enabling factors of data storage explosion and magnetic nanotechnology,” IEEE Distinguished Lecture, 2001-2002.


18. S. X. Wang, “High saturation Fe-Co-N films for GHz integrated inductors and magnetic recording heads,” International Workshop on High Frequency Micromagnetic Devices and Materials, Delft, The Netherlands, 2002.


17. S. X. Wang, N. X. Sun, and Ankur M. Crawford, “Advanced magnetic materials for GHz magnetic recording heads and integrated inductors,” MRS Spring Meeting, San Francisco, 2002.


16. S. X. Wang and N. X. Sun, “High saturation soft magnetic Fe-Co-N films for write heads,” International Symposium on Physics of Magnetic Materials, 2001.


15. S. X. Wang, N. X. Sun, T. J. Silva, A. Kos, “Soft magnetic properties and high frequency behavior of Fe-Co-N high saturation materials,” IEEE Magnetic Recording Conference, 2001.


14. S. X. Wang, K. Yamada, and W. E. Bailey, "Specularity in GMR spin valves and real-time electrical and magnetotransport measurements," paper GB-01, International Conference on Magnetics (Intermag), Toronto, 2000.


13. N. X. Sun and S. X. Wang, "Microstructures and soft magnetic properties of high saturation Fe-Co-N thin films", MRS Spring Meeting, 2000.


12. S. X. Wang, "Advanced materials for extremely high density recording heads," The 15th IIST Workshop on Information Storage, Lake Arrowhead, 1999.


11. S. X. Wang, “Inversion of spin polarization and tunneling magnetoresistance”, NSF-MRSEC Workshop on Magnetic Heterostructures, 1998.


10. S. X. Wang and J. Hong, "Magnetic and microstructural characterization of FeTaN high saturation materials," IEEE Magnetic Recording Conference, 1998.


9. S. X. Wang, J. Hong, and K. Sin, "Microstructures and properties of high saturation soft magnetic materials for advanced recording heads", MRS Spring Meeting, 1998.


8. B. Wilson, S. X. Wang, and T. Coughlin, "Read-back nonlinearity in longitudinal keepered recording", IEEE Magnetic Recording Conference, 1997.


7. A. Taratorin, J. Fitzpatrick, S. X. Wang and B. Wilson, "Nonlinear group transition and their relation to medium magnetization and error rates in high-density magetic recording", paper E-2, IEEE Magnetic Recording Conference, 1996.


6. S. X. Wang, W. E. Bailey, C. Suergers, "Ion beam deposition and structural characterization of GMR spin valves", paper AA-05, International Conference on Magnetics (Intermag), Seattle, 1996.


5. S. X. Wang and S.-Y. Bae, "Epitaxial growth of magnetic ceramic materials by sol-gel method", Pacific Regional Meeting of American Ceramics Society, Seattle, 1995.


4. S. X. Wang and S.-Y. Bae, "Sol-gel deposited perovskite manganites for colossal magnetoresistance",Workshop on Colossal Magnetoresistance, Los Alamos, 1995.


3. S. X. Wang, F. Liu, K. Maranowski, and M. H. Kryder, "Fabrication and performance of high moment FeAlN multilayer thin film recording heads", invited paper, IEEE Magnetic Recording  Conference, 1993.


2. S. X. Wang, "FeAlN multilayers for thin film recording heads", Symposium on Production Processes for  the  Gb/in2  World,  San Jose, CA, 1993.


1.M. H. Kryder, S. X. Wang and K. Rook, "FeAlN/SiO2 and FeAlN/Al2O3 multilayers for thin film recording heads",  The International Conference on Magnetism and Magnetic Materials  (MMM ), Houston, 1992


Invited Seminars


14. S. X. Wang, “Nanomagnetic Materials and Devices for Cancer Diagnostics and Efficient Power Delivery,” Special Lecture, Tsinghua University, Beijing, July 10, 2009.


13. S. X. Wang, “Nanomagnetic Materials and Devices for Cancer Diagnostics and Efficient Power Delivery,” T.D. Lee Lecture, Graduate School of Chinese Academy, Beijing, July 9, 2009.


12. S. X. Wang, “Multiplex protein assay with real time magnetic nanotag signaling,” SLAC Colloquium, May 18, 2009.


11. S. X. Wang, “Spintronic Devices Based on Spin Filtering,” Nanoelectronics Research Initiative E-Workshop, Tuesday, October 28, 2008.


10. S. X. Wang, “Magnetic Nanoparticles for Biomolecular Detection, Manipulation, and Imaging,” Nanoscale Science and Engineering Seminar, UC Berkeley, Sept. 26, 2008.


9. S. X. Wang, “Chip-Based High Throughput Proteomic Triage for Radiation Exposure,” Invited Briefing to The Biomedical Advanced Research and Development Authority (BARDA), US Department of Health and Human Services, Washington, DC, Sept. 5, 2008.


8. S. X. Wang and D.-W. Lee, “High-Performance Integrated Solenoid Inductor with Magnetic Core,” National Semiconductor Virtual Lab Distinguished Faculty Seminar, Santa Clara, April 24, 2008.


7. S. X. Wang, “CMOS Integrated Magnetic Biochip with High Density Spin Valve Sensor Array and Magnetic Nanoparticles,” Hitachi GST Research Laboratory, San Jose, Oct. 24, 2007.


6. S. X. Wang, “MagArray Biochips with Homogeneous Assay Format for Detecting Protein and DNA Signatures in Cancer,” SomaLogic, Boulder, Colorado, Nov. 20, 2006.


5. S. X. Wang, Nader Pourmand, Shouheng Sun, “Miniature PCR-less Magneto-Nano Chip and Sample Preparation for DNA Fingerprinting and Pathogen Detection,” DARPA/DTRA Workshop on Magnetic Biosensors, Fort Belvoir, Virginia, Sept. 22, 2006.


4. S. X. Wang, “Magnetic nanotechnology for doctors,” University of Maryland, Dept. of ECE, August 28, 2006.


3. S. X. Wang, “Magneto-nano chip for detection of nucleic acids and proteins,” UCSD, Dept. of ECE, June 2, 2006.


2. S. X. Wang, “Magnetic biochips for sensitive detection of pathogens,” LLNL, April 10, 2006.


1. S. X. Wang, “Magnetic biochips: laboratory curiosity or killer app?” IEEE Magnetics Society Santa Clara Valley Chapter Meeting, Feb. 21, 2006.


Journal Papers


138. M. R. Benoit, D. Mayer, Y. Barak, I. Y. Chen, Z. Cheng, W. Hu, S. X. Wang, S. S. Gambhir, A. Matin, “Visualizing implanted tumors in mice with MRI using magnetotactic bacteria,” Clinical Cancer Research, in press, 2009.


137. C. M. Earhart, E. M. Nguyen, R. J. Wilson, S. X. Wang, “Designs for a Microfabricated Magnetic Sifter,” IEEE Trans. Magn., in press, 2009.


136. A. Kozhanov, D. Ouellette, M. Rodwell, D. W. Lee, S. X. Wang and S. J. Allen, “Magnetostatic Spin Wave Modes in Ferromagnetic Tube,” IEEE Trans. Magn., in press, 2009.


135. P. K. Amiri, B. Rejaei, Y. Zhuang, M. Vroubel, D. W. Lee, and S. X. Wang, “Nonreciprocal Spin Waves in Co-Ta-Zr Films and Multilayers,” IEEE Trans. Magn., in press, 2009.


134. A. Kozhanov, D. Ouellette, Z. Griffith, M. Rodwell, A. P. Jacob, D. W. Lee, S. X. Wang, and S. J. Allen, “Dispersion in magnetostatic CoTaZr spin waveguides,”  Appl. Phys. Lett., 94(1): 012505, 2009.


133. Aihua Fu, Wei Hu, Liang Xu, Robert J. Wilson, Heng Yu, Sebastian J. Osterfeld, Sanjiv S. Gambhir, Shan X. Wang, “Protein Functionalized Antiferromagnetic Nanoparticles for Biomolecule Detection and Magnetic Manipulation,” Angewandte Chemie, 121(9): 1648-52, 2009 (Published online DOI: 10.1002/anie.200803994).


132. Wei Hu, Robert J. Wilson, Christopher M. Earhart, Ai Leen Koh, and Shan X. Wang, “Synthetic Antiferromagnetic Nanoparticles with Tunable Susceptibilities,” J. Appl. Phys., in press, 2009.


131. L. Li, D. Lee, K. P. Hwang, Y. Min, T. Hizume, M. Tanaka, M. Mao, T. Schneider, R. Bubber, S. X. Wang, “Small resistance and high Q magnetic integrated inductors on PCB,” IEEE Transactions on Advanced Packaging, in press, 2009.


130. C. Earhart, R.J. Wilson, N. Pourmand,  R. L. White, S.X. Wang, “Microfabricated Sifter for High-throughput and High-gradient Magnetic Separation,” J. Mag. Mag. Mat., 321, 1436-1439, 2009.


129. R.J. Wilson, C. Earhart, R. Gaster, C. Wong Po Foo, S. Heilshorn and S.X. Wang, “Cell Separations Using Magnetic Chains and Grids,” J. Mag. Mag. Mat., 321, 1452-1458, 2009.


128. S. J. Osterfeld, H. Yu, R. S. Gaster, S. Caramuta, L. Xu, S.-J. Han, D. A. Hall, R. J. Wilson, S. Sun, R. L. White, R. W. Davis, N. Pourmand, and S. X. Wang, “Multiplex Protein Assays Based on Real-Time Magnetic Nanotag Sensing,” PNAS, 105, 20637-20640 (4 pp, published online Dec.12), 2008.


127. A. L. Koh, W. Hu, R. J. Wilson, S. X. Wang, and R. Sinclair, “Preparation, structural and magnetic characterization of synthetic anti-ferromagnetic (SAF) nanoparticles,” Philosophical Magazine, 88:36, pp. 4225-4241, 2008.


126. M. Bao, K. Wong, A. Khitun, J. Lee, Z. Hao, K. L. Wang, D. W. Lee and S. X. Wang, “Determining wave vector and material property from the phase-shift of spin-wave propagation,” Europhysics Lett., 84, 27009 (4 pp), 2008.


125. L. W. Martin, Y.-H. Chu, M. B. Holcomb, S.-J. Han, D. Lee, S. X. Wang, and R. Ramesh, "Nanoscale control of exchange bias with BiFeO3 thin films", Nano Letters, 8, 2050-2055, 2008.


124. D. W. Lee, K.-P. Hwang and S. X. Wang, “Fabrication and analysis of high-performance integrated solenoid inductor with magnetic core (invited),” IEEE Trans.  Mag., 44, 4089-95, 2008.


123. L. Xu, H. Yu, S.-J. Han, S. J. Osterfeld, R. L. White, N. Pourmand and S. X. Wang, “Giant magnetoresistive sensors for DNA microarray,” IEEE Trans.  Mag., 44, 3989-91, 2008.


122. P. K. Amiri,, B. Rejaei, Y. Zhuang M. Vroubel, D. W. Lee, S. X. Wang, and J. N. Burghartz, “Integrated Microstrip Lines with Co-Ta-Zr Magnetic Films,” IEEE Trans.  Mag., 44, 3103-6, 2008.


121. A. L. Koh, W. Hu, R. J. Wilson, S. X. Wang and R. Sinclair, “TEM Analyses of Synthetic Anti-Ferromagnetic (SAF) Nanoparticles Fabricated Using Different Release Layers”, Ultramicroscopy, 108, 1490-4, 2008.


120. L. Xu, H. Yu, M. S. Akhras, S.-J. Han, S. J. Osterfeld, R. L. White, N. Pourmand, S. X. Wang, “Giant magnetoresistive biochip for DNA detection and HPV genotyping,” Biosensors and Bioelectronics, 24, 99-103, 2008.


119. Y. H. Chu, L. W. Martin, M. B. Holcomb, M. Gajek, S-J. Han, Q. He, N. Balke, C.-H. Yang, D. Lee, W. Hu, Q. Zhan, P.-L. Yang, A. Fraile-Rodriguez, A. Scholl, S. X. Wang, and R. Ramesh, “Electric-field control of local ferromagnetism using a magnetoelectric multiferroic,” Nature Materials, 7, 478-412, 2008.


118. L. W. Martin,  Y. H. Chu , , Q. Zhan , R. Ramesh, , S.-J. Han, S. X.  Wang, M. Warusawithana , and D. Schlom, “Room temperature exchange bias and spin valves based on BiFeO3/SrRuO3/SrTiO3/Si (001) heterostructures,” Appl. Phys. Lett., 91, 172513 (3 pp), 2008.


117. W. Hu, R.J. Wilson, A. Koh, A. Fu, A.Z. Faranesh, C.M. Earhart, S.J. Osterfeld, S.-J. Han, L. Xu, S. Guccione, R. Sinclair, and S.X. Wang, “High-moment antiferromagnetic  nanoparticles with tunable magnetic properties,” Advanced Materials, 20, 1479-1483, 2008.


116. A. Khitun, M. Bao, J-Y. Lee, K. L. Wang, D.W. Lee, S. X. Wang, and I. V. Roshchin, “Inductively Coupled Circuits with Spin Wave Bus for Information Processing (invited),” Journal of Nanoelectronics and Optoelectronics (JNO), 3, 24-34, 2008.


115. Ha-Young Lee, Sang-Hoon Lee, Chenjie Xu, Jin Xie, Jin-Hyung  Lee, Bing Wu, Ai  Leen Koh, Xiaoying Wang, Robert Sinclair, Shan X. Wang, Dwight G. Nishimura, Sandip Biswal, Shouheng Sun, Sun Hang Cho, and Xiaoyuan Chen, “Synthesis and characterization of PVP-coated large core iron oxide nanoparticles as an MRI contrast agent,” Nanotechnology, 19, 165101 (6 pp), 2008.


114. D.W. Lee and S.X. Wang, “Effects of geometries on permeability spectra of CoTaZr magnetic cores for high frequency applications”, J. Appl. Phys., 103, 07E907 (3 pp), 2008.


113. A. Koh, W. Hu, R.J. Wilson, S. X. Wang, R. Sinclair, “TEM studies of synthetic antiferromagnetic (SAF) nanoparticles,” Microsc. Microanal. 13 (Suppl. 2), 66CD, 2007.


112. N. Pourmand, S. Caramuta, A. Villablanca, S. Mori, M. Karhanek, S. X. Wang and R. W. Davis, “Branch migration displacement assay with automated heuristic analysis for discrete DNA length measurement using DNA microarrays, ” PNAS, vol. 104, no. 15, 6146-6151, 2007.


111. L. Li, D. W. Lee, M. Mao, T. Schneider, and R. Bubber, K-P Hwang, Y. Min,  and S. X. Wang, “High-frequency responses of granular CoFeHfO and amorphous CoZrTa magnetic materials,” J. Appl. Phys., vol. 101, no. 12, 123912 (4 pp), 2007.


110. L. Li, D. W. Lee, S. X. Wang, K-P Hwang, Y. Min, M. Mao, T. Schneider, and R. Bubber “Tensor nature of permeability and its effects in inductive magnetic devices,” IEEE Trans.  Mag., vol. 43, no. 6, 2373-5, 2007.


109. W. Hu, R. J. Wilson, L. Xu, S.-J. Han, and S. X. Wang, “Patterning of high density magnetic nanodot arrays by nanoimprint lithography,” J. Vac. Sci. Technol. A, vol. 25, no. 4, 1294-1297, 2007.


108. M. G. Chapline and S. X. Wang, “Analytical formula for the tunneling current versus voltage for multilayer barrier structures,” J. Appl. Phys., v. 101, no. 8, 083706 (5 pp), 2007.


107. M. G. Chapline and S. X. Wang, “Spin filter based tunnel junctions,” J. Appl. Phys., v.100, no.12, 123909-12, 2006.


106. J. Xie, C.J. Xu, Z.C. Xu, Y.L. Hou, K. L. Young, S. X. Wang, N. Pourmond, S.H. Sun, “Linking hydrophilic macromolecules to monodisperse magnetite (Fe3O4) nanoparticles via trichloro-s-triazine,” Chem. Mater., v. 18, 5401-3, 2006.


105. S.-J. Han, L. Xu, R. J. Wilson, and S. X. Wang, “A novel zero-drift detection method for highly sensitive GMR biochips,” IEEE Trans. Magn., v. 42, no. 10, 3560-2, 2006.


104. J. C. Jury and S. X. Wang, “A methodology for finite element modeling of magnetic inductive devices with in-plane multi-domain pattern,” IEEE Trans. Magn., v. 42, no. 10, 3222-4, 2006.


103. D. W. Lee, S. X. Wang, Y. J. Tang, J.-I. Hong, and A. E. Berkowitz, “Permeability of fine magnetic particles: measurements, calibration, and pitfalls,” IEEE Trans. Magn., v. 42, no. 10, 3335-7, 2006.


102. W. Cai, D.-W. Shin, K. Chen, O. Gheysens, Q. Cao, S. X. Wang, S. S. Gambhir, and X. Chen, “Peptide-labeled near-infrared quantum dots for imaging tumor vasculature in living subjects,” Nano Lett., v. 6, no. 4, 669-676, 2006.


101. D.-W. Shin, C. Dong, M. Mattesini, A. Augustsson, S. Mao, C.L. Chang, C. Persson, R. Ahuja, J. Nordgren, S. X. Wang, J.-H. Guo, “Size dependence of electronic structure of copper nanoclusters in SiC matrix,” Chem. Phys. Lett., v. 422,  no. 4-6, 543-546, 2006.


100. M. G. Chapline and S. X. Wang, “Room temperature spin filtering in a magnetic tunnel barrier,” Phys. Rev. B, v.74, no.1, 14418-1-8, 2006.


99. J. Xie, S. Peng, N. Brower, N. Pourmand, S. X. Wang, and S. Sun, “One-pot synthesis of monodisperse iron oxide nanoparticles for potential biomedical applications,” Pure and Applied Chemistry, v. 78, no. 5, 1003-1014, 2006.


98. G. Li, S. Sun, and S. X. Wang, “Spin valve biosensors: signal dependence on nanoparticle position,” J. Appl. Phys., v. 99, no. 8, p. 08P107 (3 pp), 2006.


97. D.W. Lee and S.X. Wang, “Multiple magnetic resonances in permeability spectra of thick CoTaZr films,” J. Appl. Phys., v. 99, no. 8, p. 08F109 (3 pp), 2006.


96. L. Li, S. X. Wang, K.-P. Hwang, Y. Min, M. Mao, T. Schneider, and R. Bubber, “Package-compatibility and substrate dependence of granular soft magnetic material

CoFeHfO developed by reactive sputtering,” J. Appl. Phys., v. 99, no. 8, 08M301 (3 pp), 2006.


95. G. Li, S. Sun, R. J. Wilson, R. L. White, N. Pourmand, S. X. Wang, “Spin valve sensors for detection of superparamagnetic nanoparticles for biological applications,” Sensors and Actuators A: Physical; v.126, no.1, 98-106, 2006.


94. J. T. Kemp, R. W. Davis, R. L. White, S. X. Wang, and C. D. Webb, “A novel method for STR-based DNA fingerprinting using microarrays,” J. of Forensic Sciences, v.50, no.5,1109-1113, 2005.


93. M. G. Chapline and S. X. Wang, “Observation of the Verwey Transition in Thin Magnetite Films,” J. Appl. Phys., 97, 123901 (3 pp), 2005.


92. S. Ghosh, V. Sih, W. H. Lau, and D. D. Awschalom, S.-Y. Bae and S. Wang, S. Vaidya and G. Chapline, “Room-temperature spin coherence in ZnO,” Appl. Phys. Lett., 86, 232507-9, 2005.


91. Stephanie G. Grancharov, Hao Zeng, Shouheng Sun, Shan X. Wang, Stephen O'Brien, C.B. Murray, J.R. Kirtley & G.A. Held, “Bio-functionalization of monodisperse magnetic nanoparticles and their use as biomolecular labels in a magnetic tunnel junction based sensor,” J. Phys. Chem. B,109(26), 13030-5. 2005.


90. H. Yu, M. Chen, P. M. Rice, S. X. Wang, R. L. White, and S. Sun, “Dumbbell-like bifunctional Au-Fe3O4 nanoparticles,”. Nano Lett., 5(2), 379-382, 2005.


89. D. B. Robinson, H. H. J. Persson, H. Zeng, G. Li, N. Pourmand, S. Sun, and S. X. Wang, “DNA-functionalized MFe2O4 (M=Fe, Co, Mn) nanoparticles and their hybridization to DNA-functionalized surfaces,”. Langmuir, 21, 3096-3103, 2005.


88. L. Li, A. M. Crawford, S. X. Wang, A. Marshall, M. Mao, T. Schneider, R. Bubber, “Soft magnetic granular material Co-Fe-Hf-O for micromagnetic device applications,” J. Appl. Phys., 97, 10F907 (3 pp), 2005.


87. D. W. Lee, A. M. Crawford, and S. X. Wang, “Composite-anisotropy amorphous magnetic materials for high frequency devices,” J. Appl. Phys., 97, 10F911-1 to -3, 2005.


86. M. G. Chapline and S. X. Wang, “PLD grown CoFe2O4/Fe3O4 bilayers and their tunneling characteristics,” J. Appl. Phys., 97, 10F915 (3 pp), 2005.


85. S. X. Wang, S.-Y. Bae, G. Li, S. Sun, R. L. White, J. T. Kemp, and C. D. Webb, “Towards a magnetic microarray for sensitive diagnostics,” J. Mag. Mag. Mat., 293, 731-736,2005.


84. H. Zeng, P. M. Rice, S. X. Wang, and S. Sun, “Shape-controlled synthesis and shape-induced texture of MnFe2O4 nanoparticles,”, J. Am. Chem. Soc., 126, 11458-9, 2004.


83. D.-W. Shin, S. X. Wang, A. F. Marshall, W. Kimura, C. Dong, A. Augustsson, and J. Guo,  “Growth and structural characterization of copper nanoclusters embedded in SiC matrix,” Thin Solid Films, v.473, no.2, 267-271, 2005.


82. G. Li, S. X. Wang, and S. Sun, “Model and experiment of detecting multiple magnetic nanoparticles as biomolecular labels by spin valve sensors,” IEEE Trans. Magn., 40(4), 3000-2, 2004.


81. V. Joshi, G. Li, S. X. Wang, and S. Sun, “Biochemical stability of components for use in a DNA detection system,” IEEE Trans. Magn., 40(4), 3012-4, 2004.


80. M. Vroubel, Y. Zhuang, B. Rejaei, J. Burghartz, A. M. Crawford, and S. X. Wang, “Calculation of shape anisotropy for micropatterned thin FeNi films for on-chip RF applications,” IEEE Trans. Magn., 40(4), 2835-7, 2004.


79. A. M. Crawford and S. X. Wang, “Effect of patterned magnetic shields on high frequency integrated inductors,” IEEE Trans. Magn., 40(4), 2017-9, 2004.


78. M. Sharma, S.-Y. Bae, and S. X. Wang, “Inelastic electron tunneling spectroscopy of magnetic tunnel junctions with AlN and AlON barriers,” J. Magn. Magn. Mater., vol.272-276, pt.3, 1952-3, 2004


77. S. Sun, H. Zeng, D. B. Robinson, S. Raoux, P. M. Rice, S. X. Wang, and G. Li, “Monodisperse MFe2O4 (M = Fe, Co, Mn) nanoparticles”, J. Am. Chem. Soc., 126, 273-279, 2004.


76. N. Sun, S. X. Wang, “Damping criteria of magnetization in ferromagnetic ellipsoids,” IEEE Trans. Magn.,40(1), 253-6, 2004.


75. G. X. Li, S. X. Wang, “Analytical and micromagnetic modeling for detection of a single magnetic microbead or nanobead by spin valve sensors,” IEEE Trans. Magn., 39(5), 3313-5, 2003.


74. G. Li, V. Joshi, R. L. White, S. X. Wang, J. T. Kemp, C. Webb, R. W. Davis, “Detection of single micron-sized magnetic bead and magnetic nanoparticles using spin valve sensors for biological applications,” J. Appl. Phys., 93, 7557-9, 2003.


73. K. Aoshima and S. X. Wang, “Fe3O4 and its magnetic tunneling junctions grown by ion beam deposition,” J. Appl. Phys. 93, 7954-6, 2003.


72. N. X. Sun and S. X. Wang, “Anisotropy dispersion effects on the high frequency behavior of soft magnetic Fe-Co-N thin films,” J. Appl. Phys., 93, 6468-6470, 2003.


71. A. M. Crawford, D. S. Gardner, and S. X. Wang, “Fabrication and comparison of broad-band inductors with one and two Co-based amorphous ground planes,” Trans. Magn. Soc. Jap., 2(5), 357-360, 2002.


70. S.-S. Lee, J.-R. Rhee, C.-M. Park, S. X. Wang, D.-G. Hwang, M.-Y. Kim, J.-Y. Hwang, “Dependence of natural oxidation spin-dependent tunneling junctions on junction area,”  Phys. Stat. Sol. (a), 189 (3), 659-662, 2002.


69. G. A. Bertero, D. Wachenschwantz, S. Malhotra, S. Velu, B. Bian, D. Stafford, T. Yamasita, S. X. Wang, “Optimization of granular double-layer perpendicular media,” IEEE Trans. Magn., 38(4), 1627-1631, 2002.


68. A. M. Crawford, D. S. Gardner, and S. X. Wang, “High frequency micro-inductors with amorphous magnetic ground planes,”IEEE Trans. Magn., 38(5), 3168-3170, 2002.


67. S.-Y. Bae and S. X. Wang, “Transport in magnetically doped magnetic tunnel junctions,”IEEE Trans. Magn., 38(5), 2721-3, 2002.


66. N. X. Sun and S. X. Wang, “Soft magnetism of Fe-Co-N thin films with a Permalloy underlayer,” J. Appl. Phys., 92(3), 1477-1482, 2002.


65. J. C. Jury, K. Klaassen, J. van Peppen, S. X. Wang, “Measurements of analysis of the noise sources in GMR heads up to 6 GHz,” IEEE Trans. Magn., 38(5), 3545-3555, 2002.


64. Y. Li and S. X. Wang, “Intermixing effects in ultrathin barrier magnetic tunnel junctions,” J. Appl. Phys., 91(10), 7950-2, 2002.


63. K. Aoshima and S. X. Wang, “Epitaxial growth and characterization of Fe3O4 on Ru Underlayer,” J. Appl. Phys., 91(10), 7146-8, 2002.


62. N. X. Sun, S. X. Wang, T. J. Silva, and A. B. Kos, “High-frequency behavior and damping of Fe-Co-N based high saturation soft magnetic films,” IEEE Trans. Magn., 38(1), 146-150, 2002.


61. J. C. Jury, S. Batra, and S. X. Wang, “Designing disk drive interconnects to obtain a desired transmitted write current waveform,” IEEE Trans. Magn., 38(1), 55-60, 2002.


60. J. C. Jury and S. X. Wang, “Extending the bandwidth of magnetic tunnel junction sensors using a buffer amplifier,” IEEE Trans. Magn., 38(1), 295-7, 2002.


59. S. S. Lee, S. X. Wang, C. M. Park, J. R. Rhie, C. S. Yoon, P. J. Chang, and C. K. Kim, “Junction area dependence of tunneling magnetoresistance,” J. Magn. Magn. Mat., 239, 129-131, 2001.


58. S.-Y. Bae, K.-H. Shin, J.-H. Lee, K.-W. Rhie, K.-I. Lee, J.-G. Ha, and S. X. Wang, “Oxidation kinetics of tunnel barrier and its effect on exchange bias of proximity interface,” Appl. Phys. Lett., 79(25), 4130-2, 2001.


57. J. Hong and S. X. Wang, “Microstructures of FeTaN films in the neck region of magnetic recording heads,” IEEE Trans. Magn., 36, 3039-42, 2001.


56. Y. Li, S. X. Wang, G. Khanna, B. M. Clemens, "Epitaxial growth of aluminum on permalloy," Thin Solid Films, 381, 160-3, 2001.


55. S. X. Wang, N. X. Sun, M. Yamaguchi, and S. Yabukami, "Properties of a new soft magnetic material,"Nature, 407, 150-1, Sept. 14, 2000.


54. M. Sharma, J. H. Nickel, T. C. Anthony, and S. X. Wang, "Spin-dependent tunneling junctions with AlN and AlON barriers," Appl. Phys. Lett., 77(4), 2219-21, 2000.


53. S. X. Wang, K. Yamada, and W. E. Bailey, "Specularity in GMR spin valves and real-time electrical and magnetotransport measurements," IEEE Trans. Magn., 36, 2841-6, 2000.


52. N. X. Sun and S. X. Wang, "Soft high saturation magnetization (Fe.7Co.3)1-xNx thin films for inductive write heads," IEEE Trans. Magn., 36, 2506-8, 2000.


51. A. Wallash, J. Hillman, M. Sharma, and S. X. Wang, "Electrostatic discharge testing of tunneling magnetoresistive devices," IEEE Trans. Magn., 36, 2809-11, 2000.


50. W. E. Bailey, S. X. Wang, and E. Y. Tsymbal, "Electronic scattering from Co/Cu interfaces: in-situ measurement, and comparison with microstructure, and failure of free-electron models," J. Appl. Phys., 87, 5185-7, 2000.


49. W. E. Bailey, S. X. Wang, and E. Y. Tsymbal, "Electronic scattering from Co/Cu interfaces: in-situ measurement and comparison with theory," Phys. Rev. B, 61(2), 1330-5, 2000.


48. S. X. Wang, K. Sin, J. Hong, and L. Nguyentran, "Magnetic properties, microstructures and corrosion resistance of high saturation FeMoN and FeRhN films for recording heads," IEEE Trans. Magn., 36, 513-520, 2000.


47. A. T. A. Wee, S. X. Wang, and K. Sin, "In-situ characterization of oxide growth for fabricating spin-dependent tunnel junctions," IEEE Trans. Magn., 35, 2949-31, 1999.


46. K. Yamada, W. E. Bailey, C. Fery, and S. X. Wang, "In-situ conductance measurement of surface specularity of NiFe, Co, Cu, Ag, and Ta thin films," IEEE Trans. Magn., 35, 2979-81, 1999.


45. J. Hong, A. Furukawa, N. Sun, S. X. Wang, C. A. Grimes, and S. Sahu, "Magnetic properties and high frequency responses of high moment FeTaN/AlN laminates for high data rate magnetic recording," IEEE Trans. Magn., 35, 2502-4, 1999.


44. T. Clark, F. Mancoff, S. X. Wang, B. Clemens, and R. Sinclair, "Study of DC plasma oxidized Al2O3 barriers in spin dependent tunneling junctions using high resolution transmission electron microscopy," IEEE Trans. Magn., 35, 2922-4, 1999.


43. B. A. Wilson and S. X. Wang, "Trellis codes for transition jitter noise," IEEE Trans. Magn., 35, 2328-30, 1999.


42. A. T. A. Wee, K. Sin, and S. X. Wang, "Spin-dependent tunneling junctions with Fe55Ni45 electrodes and in-situ resistive measurement of oxide growth," Appl. Phys. Lett., 74, 2528-30, 1999.


41. W. E. Bailey, C. Fery, K. Yamada, and S. X. Wang, "Direct measurement of surface scattering in GMR spin valves," J. Appl. Phys., 85(10), 7345-8, 1999.


40. E. Jedryka, W. E. Bailey, M. Wojcik, S. Nadolski, and S. X. Wang, "Investigation of ion-beam deposited spin valve interface structure by 59Co NMR," J. Appl. Phys., 85(8), 4439-41, 1999.


39. S. X. Wang and J. Hong, “Magnetic and microstructural characterization of FeTaN high saturation materials for recording heads”, IEEE Trans. Magn., 35, 782-7, 1999.


38. M. Sharma, S. X. Wang, and J. H. Nickel, “Inversion of spin-polarization and tunnelingmagnetoresistance in spin-dependent tunneling junctions”, Phys. Rev. Lett., 82(3), 616-9, 1999.


37. M. Sharma, S. X. Wang, and J. H. Nickel, “Determination of barrier oxidation states in spin dependent tunneling structures”, J. Appl. Phys., 85(11), 7803-6, 1999.


36. J-F. Bobo, F. Mancoff, K. Bessho, M. Sharma, K. Sin, D. Guarisco, S.X. Wang,and B. M. Clemens, "Spin dependent tunneling junctions with hard magnetic layer pinning", J. Appl. Phys.,  83, 6685-7, 1998.


35. S.-Y. Bae and S. X. Wang, "Novel sol-gel processing for polycrystalline and epitaxial thin films of La1-xCaxMnO3 with colossal magnetoresistance", J. Mater. Research, 13(11), 3234-40, 1998.


34. J. Hong, S. X. Wang and K. Rook, "Texture and magnetic properties of FeTaN films bias-sputtered on sloping surfaces," IEEE Trans. Magn., 34, 1444-6, 1998.


33. W. E. Bailey, D. Guarisco and S. X. Wang, "Effect of microstructure on resistivity and  GMR ratio in ion beam deposited spin valves," IEEE Trans. Magn., 34, 957-9,1998


32. D. Guarisco and S. X. Wang, "In situ and ex situ observation of spin valves obtained by ion beam deposition",  IEEE Trans. Magn., 33, 3595-7, 1997.


31. B. Wilson, S. X. Wang, and T. Coughlin, "Readback nonlinearity in longitudinal keepered recording," IEEE Trans. Magn., 34, 51-6, 1998.


30. A. Taratorin, D. Cheng, P. Arnett, R. Olson, T. Diola, J. Fitzpatrick, S. X. Wang, and B. Wilson, "Intra- and inter-pattern nonlinearities in high density magnetic recording," IEEE Trans. Magn., 34, 45-50, 1998.


29. J. Hong, K. Sin, L. Nguyentran, and S. X. Wang, "Soft magnetic properties of FeRhN high moment thin films",  IEEE Trans. Magn., 33, 2845-7, 1997.


28. L. Nguyentran, K. Sin, J. Hong, P. Pizzo, and S. X. Wang, "Corrosion resistance of low coercivity, high moment FeXN (X=Rh, Mo) thin film head materials",  IEEE Trans. Magn., 33, 2848-50, 1997.


27. A. Taratorin, B. Wilson, and S. X. Wang, "The dependence of overwrite on nonlinear transition shift",  IEEE Trans. Magn., 33, 2689-91, 1997.


26. B. Wilson, S. X. Wang, and A. Taratorin, "Linearizing the read process for write nonlinearity measurements", IEEE Trans. Magn., 33, 2692-4, 1997.


25. K. Sin and S. X. Wang, "Domain structures and magnetic properties of FeN films deposited on sloping surfaces",  IEEE Trans. Magn., 33, 2833-5, 1997.


24. S. X. Wang, W. E. Bailey, C. Suergers, "Ion beam deposition and structural characterization of GMR spin valves", IEEE Trans. Magn., 33, 2369-74, 1997.


23. S-Y. Bae, D. J. Snyder, and S. X. Wang, "Colossal magnetoresistance in sol-gel derived epitaxial thin film of Co-doped La1-xCaxMnOx", J. Electron. Mater., 27, 1-7, 1998.


22. B. Wilson and S. X. Wang, "A generalized method to measure readback nonlinearity using a spin stand", J. Appl. Phys., 81, 4828-30, 1997. 


21. K. Sin, C.-T. Wang, S. X. Wang, and B. M. Clemens, "Effects of lamination on soft magnetic properties of FeN films on sloping surfaces", J. Appl. Phys., 81, 4507-9, 1997.


20. A. Taratorin, J. Fitzpatrick, S. X. Wang and B. Wilson, "Nonlinear interactions in a series of transitions", IEEE Trans. Magn.,  33, 956-61, 1997.


19. C. Sürgers, E. Kay, S. X. Wang, "Effect of ion bombardment during growth on the chemical order in FePd films", J. Appl. Phys.  80, 5753-8, 1996.


18. J. Hong, E. Kay, and S. X. Wang, "Granular magnetic Co metal/polymer thin film systems", IEEE Trans. Magn.,  32, 4475-7, 1996.


17. K. Sin and S. X. Wang, "FeN/AlN multilayer films for high moment thin film recording heads", IEEE Trans. Magn., 32, 3509-11, 1996.


16. S-Y. Bae and S. X. Wang, "A novel sol-gel process for depositing epitaxial and polycrystalline La(Ca)MnO3",  Appl. Phys. Lett. , 69,  121-3, 1996.


15.W. E. Bailey, N.-C. Zhu, R. Sinclair and S. X. Wang, "Structural comparisons of ion beam and DC magnetron sputter-deposited GMR spin valves by high resolution TEM",  J. Appl. Phys., 79, 6393-5, 1996.


14. K. Sin and S. X. Wang, "Stress control and soft magnetic properties in high moment FeN thin films", J. Appl. Phys., 79, 5901, 1996.


13. W. P. Jayasekara, S. X. Wang, G. Spratt, and M. H. Kryder, "4Gbit/inch2 inductive write heads using high moment FeAlN poles", J. Appl. Phys., 79, 5880-2, 1996.


12. W. E. Bailey, S. X. Wang, and W. C. Cain, "High Ms recording head saturation studies by magnetic force microscopy", IEEE Trans. Magn., 31, 3120-2, 1995.


11. S. X. Wang and P. R. Webb, "Modeling of submicron track inductive write head designs", IEEE Trans. Magn., 31, 2687-9, 1995.


10. R. E. Jones, Jr., J. Williams, L. Spector, C-J. Lin, S. X. Wang, S. Pichai, and B. M. Clemens, "Magnetic properties of NiFe sputtered on sloping surfaces", IEEE Trans. Magn., 31, 3817-9, 1995.


9. S. X. Wang, E. Louis, J. Wolfson, R. Anderson, and M. H. Kryder, "A perpendicular contact recording head with high moment laminated FeAlN/NiFe pole tips", IEEE Trans. Magn., 30, 3897-9, 1994.


8. S. X. Wang, F. Liu, K. Maranowski, and M. H. Kryder, "Fabrication and performance of high moment FeAlN multilayer thin film recording heads", IEEE Trans. Magn., 30, 281-6, 1994.


7. M. H. Kryder, S. X. Wang and K. Rook, "FeAlN/SiO2 and FeAlN/Al2O3 multilayers for thin film recording heads", J. Appl. Phys., 73, 6212-7, 1993.


6. D. J. Rogers, S. X. Wang, D. E. Laughlin and M. H. Kryder, "Microstructural investigations of FeN and FeAlN thin films for recording head applications", IEEE Trans. Magn., 28, 2418-20, 1992.


5.S. X. Wang, K. Obermyer and M. H. Kryder, "Improved high moment FeAlN/SiO2 laminated materials for thin film recording heads", IEEE Trans. Magn., 27, 4879-81, 1991.


4. S. X. Wang and M. H. Kryder, "High moment nitrogen doped iron film based laminated materials for thin film recording Heads", J. Appl. Phys., 69, 5625-7, 1991.


3. S. X. Wang and M. H. Kryder, "rf-diode sputtered iron nitride films for thin film recording head materials", J. Appl. Phys., 67, 5134-6, 1990.


2. S. X. Wang, J. I. Guzman and M. H. Kryder, "High moment soft amorphous CoFeZrRe thin film materials", J. Appl. Phys., 67, 5114-6, 1990.


1. L. L. Miller, X. L. Wang, S. X. Wang, C. Stassis and D. C. Johnston, "Synthesis, structure and properties of Sr2CuO2Cl2", Phys. Rev. B, 41, 1921-5, 1990.