Book Chapters
- D. Baer, PG Tratnyek, Y Qiang, JE Amonette, et. al, "Synthesis, characterization and properties of zero valent iron nanoparticles", in "Environmental Application of Nanomaterials: Synthesis, Sorbents, and Sensors", edited by G. Fryxell and GZ Cao, London: Imperial College Press, pp 49-86, 2007.
- You Qiang, Jiji Antony, Ch. Kakaraparthi, and S. Pendyala, “Ultrahigh Magnetic Moments of Core-Shell nanoclusters for Biomedical Application”, in the book of “Clusters and Nano-Assemblies: physical and biological systems”, edited by P. Jena, S.N. Khanna and B.K. Rao, World Scientific, 2005.
- Y. Qiang, R. Morel, D. Eastham, JM. Meldrim, J. Kraft, A. Fert, H. Haberland, and DJ. Sellmyer, “Magnetic Properties of Cobalt Clusters Embedded in a Nonmagnetic Matrix (Ag, Cu and SiO2)”, in the book of “Cluster and Nanostructure interfaces” edited by P. Jena, SN. Khanna and BK Rao, World Scientific, 2000.
- D.J. Sellmyer, C.P. Lou, Y. Qiang and J.P. Liu, “Magnetism of Nanophase Composite Films” Chapter 7 of Handbook of Thin Film Materials, Vol. 5, edited by H.S. Nalwa, Academic Press, 2002.
Journal Publications
- M. Kaur, A. Johnson, G. Tian, L. Rao, A. J. Paszczynski, and Y. Qiang, “Separation Nanotechnology of Diethylenetriaminepentaacetic Acid Bonded Magnetic Nanoparticles for Spent Nuclear Fuel,” Nano Energy, 2 (2013) 124-132.
- M. Kaur, J.S. McCloy, and Y. Qiang, “Exchange bias in Core-Shell Iron-Iron Oxide Nanoclusters,” J. of Applied Physics, vol. 113, no. 17, pp. 17D715, 2013.
- J.S. McCloy, W. Jiang, M. Kaur, and Y. Qiang, “Ion irradiation of Fe/Fe oxide core-shell nanocluster films: effect of interface on stability of magnetic properties,” J. Appl. Phys., vol. 114, no. 8, pp. 083903–9, 2013.
- M. Kaur, H. Zhang, L. Martin, T. Todd, and Y. Qiang, “Conjugates of Magnetic Nanoparticle - Actinide Specific Chelator for Radioactive Waste Separation,” Enviornmental Science & Technology, 2013, 47, 11942-11959.
- M. Kaur, Q. Dai, M. Bowden, Y. Wu, J. Tang, and Y. Qiang, “Magnetic interaction reversal: Cr doping effect on Fe based watermelon core-shell nanoclusters,” Applied Physical Letters, 103, 202407 (2013)
- M. Kaur, H. Zhang, and Y. Qiang, “Magnetic separation dynamics of colloidal magnetic nanoparticles and their conjugates,” Magnetics Letters, IEEE Magn. Lett., vol. 4, 4000204, 2013
- M. Kaur, Q. Dai, M. Bowden, M.H. Engelhard, Y. Wu, J. Tang, and Y. Qiang, “Watermelon-like iron nanoparticles: Cr doping effect on magnetism and magnetization interaction reversal,” Nanoscale, vol. 5, no. 17, pp. 7872–7881, Aug. 2013.
- DT Zhang, WT Geng, M Yue, WQ Liu, JX Zhang, JA Sundararajan and Y Qiang, “Crystal structure and magnetic properties of Mn xBi 100-x (x=48, 50, 55 and 60) compounds”, Journal of Magnetism and Magnetic Materials, vol. 324, no. 11, pp. 1887–1890, 2012.
- M. Kaur, J.S. McCloy, W. Jiang, Q. Yao, and Y. Qiang,, “Size dependence of inter- and intra-cluster interactions in core-shell iron-iron oxide nanoclusters, J. Phys. Chem. C, 2012, 116, 12875.
- Wang CM, DR Baer, SM Bruemmer, MH Engelhard, ME Bowden, JA Sundararajan, and Y Qiang. 2011. "Microstructure of the Native Oxide Layer on Ni and Cr-doped Ni Nanoparticles." Journal of Nanoscience and Nanotechnology 11(10):8488-8497. doi:10.1166/jnn.2011.4964
- Andrew K. Johnson, Jozef Kaczor, Hongmei Han, Maninder Kaur, Guoxin Tian, Linfeng Rao, You Qiang and Andrzej J. Paszczynski, “Highly hydrated poly(allylamine)/silica magnetic resin”, J. of Nanoparticle Research, 13, 4881-4895 (2011). DOI: 10.1007/s11051-011-0467-z.
- D. T. Zhang, S. Cao, M. Yue, W. Q. Liu, J. X. Zhang, and Y. Qiang, “Structure and magnetic properties of bulk MnBi permanent magnets”, J. OF APPLIED PHYSICS 109, 07A722 (2011).
- S. K. Rastogi, J. M. F. Jabal, H. Zhang, C. M. Gibson, K. J. Haler, Y. Qiang, D. E. Aston, and A. L. Branen. “Antibody@silica coated Iron Oxide nanoparticles: synthesis, capture of E. coli and SERS titration of biomolecules with antibacterial silver colloid”, Journal of Nanomedicine & Nanotechnology, 2011, 2(7), 2-7.
- W. Jiang, J. McCloy, A. Lea, J.A. Sundararajan, Q. Yao, and Y. Qiang, “Magnetization and susceptibility of ion-irradiated granular magnetite films”, Physics Review B, 83, 134435 (1-8), 2011.
- J.A. Sundararajan, D.T. Zhang, Y. Qiang, W. Jiang, and J.S. McCloy “Magnetic stability of He+ ion irradiated FeO+Fe3N granular films’, J. of Applied Physics 109, 07E324, 2011
- D. T. Zhang, J. J. Yang, X.F. Yi, M. Yue, S. Cao, W. Q. Liu, J. X. Zhang and Y. Qiang, “Structure and magnetic properties of bulk nanocrystalline Tm2(Co0.7Fe0.3)17 permanent magnet”, J Appl. Phys, 107, 09A709, 2010.
- D. T. Zhang, W.C. Lu, M. Yue, J. J. Yang, W. Q. Liu, J. X. Zhang and Y. Qiang, “ Nanocrystalline SmCo5 Magnet Synthesized by Spark Plasma Sintering”, J Appl. Phys, 107, 09A701, 2010.
- H.M. Han, A. Johnson, J. Kaczor, M. Kaur, A. Paszczynski and Y. Qiang, “Silica Coated Magnetic Nanoparticles for Separation of Nuclear Acidic Waste”, J Appl. Phys, 107, 09B520, 2010.
- Tian Y. F.; Yan Shi-shen; Zhao M. W.; Dai Y. Y.; Zhang Y. P.; Qiao R. M.; Hu S. J.; Chen Y. X.; Liu G. L.; Mei L. M.; Qiang Y.; Jiao J. “Controllable spin-polarized electrical transport in wide-band-gap oxide ferromagnetic semiconductors”, Journal of Applied Physics 107, 033713, 2010;
- J. He, D. L. Zhao, X. L. Wang, Q. Yao and Y. Qiang, “Exchange bias behavior of nanocrystalline FeCuNbSiB ribbons”, J. of Appl. Phys. 105, 07A301, (2009).
- Y. F. Tian, Shi-shen Yan, Q. Cao, J. X. Deng, Y. X. Chen, G. L. Liu, L. M. Mei, and Y. Qiang, “Origin of large positive magnetoresistance in the hard-gap regime of epitaxial Co-doped ZnO ferromagnetic semiconductors”, Phys. Rev. B 79, 115209, (2009).
- Chongmin Wang, Donald R. Baer, James E. Amonette, Mark H. Engelhard, Jiji Antony and You Qiang “Morphology and Electronic Structure of Oxide Shell on the Surface of Iron Nanoparticles”, JACS 2009,131, 8824-8832.
- C. M. Wang, L. V. Saraf, and Y. Qiang, “Microstructures of ZnO films deposited on (0001) and r-cut α-Al2O3 using MOCVD”, Thin Solid Films 516 (2008) 8337–8342.
- Y.F. Tian, J. Antony, R. Souza, S.S. Yan and Y. Qiang, “Zeeman splitting induced positive magnetoresistance in Co-doped ZnO and Co-doped Cu2O ferromagnetic nanoparticles”, IEEE Transactions on Magnetics, 44 (2008) 11, 2712-2714.
- Y.F. Tian, J. Antony, R. Souza, S.S. Yan, L.M. Mei and Y. Qiang, “Giant positive magnetoresistance in Co-doped ZnO nanocluster films”, Appl. Phys. Letters, 92, (2008) 192109 (The paper was selected by the American Physical Society and the American Institute of Physics to appear in the Virtual Journal of Nanoscale Science & Technology, May, 2008 issue). http://www.vjnano.org)
- D. R. Baer, J. E. Amonette, M. H. Engelhard, D. J. Gaspar, A. S. Karakoti, S. Kuchibhatla, P. Nachimuthu, J. T. Nurmi, Y. Qiang, V. Sarathy, S. Seal, A. Sharma, P. G. Tratnyek, and C-M Wang, “Characterization Challenges for Nanomaterials”, Surface and Interface Analysis, 2008, 40: 529-537.
- Amit Sharma, You Qiang, Daniel Meyer, Ryan Souza, Alan Mcconnaughoy, Leslie Muldoon, and Donald Baer, “Biocompatible core-shell magnetic nanoparticles for cancer treatment”, J. of Appl. Phys, 103 (2008) 07A308. (The paper was selected by APS and AIP to appear in the Virtual Journal of Nanoscale Science & Technology, Feb. 18, 2008 issue http://www.vjnano.org, and has been selected for the February 15, 2008 issue of Virtual Journal of Biological Physics Research at http://www.vjbio.org).
- C. M. Wang, D. R. Baer, J. E. Amonette, M. H. Engelhard, M. J. Antony, Y. Qiang, and J. Cazaux, “Electron Beam Induced Thickening of the Protective Oxide Layer around Fe Nanoparticles”, Ultramicroscopy, 108 (2007) 43-51.
- C. M. Wang, D. R. Baer, J. E. Amonette, M. H. Engelhard, Y. Qiang , and J. Antony, “Morphology and Oxide Shell Structure of Iron Nanoparticles Grown by Sputter-Gas-Aggregation”, Nanotechnology, 18(2007)255603, (The Institute of Physics selected this paper as an IOP Select paper. IOP Select reflects both the breadth and international significance of papers published in prestigious peer reviewed journals. The paper was also featured on the cover page in Nanotechnology and reported as journal highlights entitled “Tuning the structure of iron nanoparticles”.)
- Jiji Antony, You Qiang, “Cathodoluminescence from a device of carbon nanotube-field emission display with ZnO nanocluster phosphor”, Nanotechnology 18 (2007) 295703.
- Jiji Antony, You Qiang, Faheem Muhammad, Daniel Meyer, David E. McCready, and Mark H. Engelhard “Ferromagnetic semiconductor nanoclusters: Co-doped Cu2O”, Appl. Phys. Letters, 90, (2007) 013106, (The paper was selected by the American Physical Society and the American Institute of Physics to appear in the Virtual Journal of Nanoscale Science & Technology, 2007 issue. http://www.vjnano.org).
- Daniel Meyer, Mohammad Faheem, Michael Campanell, Jiji Antony, Amit Sharma, and You Qiang, “Magnetic Nanocrystalline Films Softened by Obliquely Accelerating Iron Nanoclusters”, IEEE Transactions on Magnetics, 43 (2007) 3010.
- Amit Sharma, You Qiang, Pawel Karnacki, Andrzej Paszczynski, Daniel Meyer, Joseph Nutting, and Jiji Antony, “Dramatic increase in stability and longevity of enzymes attached to monodispersive iron nanoparticles”, IEEE Transactions on Magnetics, 43 (2007) 2418
- Jiji Antony, Sweta Pendyala, David E McCready, Mark H Engelhard, Daniel Meyer, Amit Sharma and You Qiang, “Ferromagnetism in Ti-Doped ZnO Nanoclusters above Room Temperature”, IEEE Transactions on Magnetics, 42 (2006) 2697
- Jiji Antony, Joseph Nutting, D. Baer, Daniel Meyer, Amit Sharma, and You Qiang, “Size dependent specific surface area of nanoporous films assembled by core-shell iron nanoclusters”, J. of Nanomaterials, 12 (2006) 54961.
- Joseph Nutting, Jiji Antony, Daniel Meyer, Amit Sharma, and You Qiang, "The effect of particle size distribution on the usage of the AC susceptibility in biosensors", J. of Applied Physics, 99, 08B319 (2006), (This paper was selected in the Virtual J. of Biolog. Phys Res., 2006 issue. http://www.vjbio.org).
- Leslie L. Muldoon, Paul Tratnyek, Paula M. Jacobs, Nancy D. Doolittle, Gregory A. Christoforidis, Joseph Frank, Manfred Lindau, Paul R. Lockman, Sandor Manninger, You Qiang, Alexander M. Spence, Samuel I. Stupp, Miqin Zhang, Edward A. Neuwelt, “Imaging and nanomedicine for diagnosis and therapy in the CNS: Report of the eleventh annual blood-brain barrier disruption consortium meeting”, American Journal of Neuroradiology, 27:715-721, March 2006.
- Jiji Antony, You Qiang, Donald R. Baer and Chongmin Wang, “Synthesis and Characterization of Stable Iron-Iron Oxide Core-Shell Nanoclusters for Environmental Applications”, J. of Nanoscience and Nanotechnology, 6, 568-572 (2006).
- C. M. Wang, D. R. Baer, L. E. Thomas, J. E. Amonette, Jiji Anthony, You Qiang, and G. Duscher, “Observations of Cation Diffusion and Void Formation during Early Stages of Passivation: Initial Oxidation of Iron Nanoparticles at Room Temperature”, J. of Applied Physics, 98, 094308, 2005.
- You Qiang, Jiji Antony, Amit Sharma, Sweta Pendyala, Joe Nutting, Daniel Sikes and Daniel Meyer, “Iron/Iron Oxide Core-Shell Nanoclusters for Biomedical Applications”, J. of Nanoparticle Research, 8 (2006) 489. (This nanotechnology news has been reported by the National Cancer Institute (NCI), The Institute of Nano Technology, American Ceramic Society Bulletin, and PhysOrg.com as well as translated into Chinese, Korean, German and Arabic).
- J. Antony, S. Pendyala, A. Sharma, X.B. Chen, J. Morrison, L. Bergman, Y. Qiang, “Room temperature ferromagnetic and UV optical properties of Co-doped ZnO nanocluster films”, J. of Appl. Phys. 97, 10D307 (2005), (The paper was selected for publication in the Virtual Journal of Nanoscale Science & Technology, May 13, 2005 issue. http://www.vjnano.org).
- J. Antony, X.B. Chen, J. Morrison, L. Bergman, Y. Qiang, D.E. McCready, and M. Engelhard, “ZnO nanoclusters: Synthesis and Photoluminescence”, Appl. Phys. Letters, 87, 241917 (2005), (This paper was selected by the American Physical Society and the American Institute of Physics to appear in the Virtual J. of Nanoscale Science & Technology, 2005 issue. http://www.vjnano.org).
- Y. Qiang, J. Antony, M. G. Marino, and S. Pendyala, “Synthesis of Core-Shell nanoclusters with High Magnetic Moment for Biomedical Applications”, IEEE Trans. on Magnetics, 40 (2004) 6, 3538-3540.
- Y. Xu, Z.G. Sun, Y. Qiang and D.J. Sellmyer, “Preparation and Magnetic Properties of CoPt and CoPt:Ag Nanocluster Films”, J. of Magnetism and Magnetic Materials, 266 (2003)164-170.
- Y. Xu, Z. Sun, Y. Qiang, and D. Sellmyer, "Magnetic Properties of L10-FePt and FePt:Ag Nanocluster Films", J. of Applied Physics, 93, 10 (2003) 8289.
- R. Skomski, A. Kashyap, Y. Qiang, and D. Sellmyer, "Exchange through Nonmagnetic Insulating Matrix", J. of Applied Physics, 93, 10(2003) 6477.
- D.J. Sellmyer, Y. Qiang, R.F. Sabiryanov, S.S. Jaswal, and H. Haberland, “Magnetic Properties of Co Nanoclusters Embedded in a Nonmagnetic Matrix”, Proc. Int. Symp. On Cluster Assembled Mater. IPAP Conf. Series 3 pp. 39-41, 2002.
- Eastham D.A; Denby P.M.; Harrison A.; Whittaker A.G; Kirkman I.W; Qiang Y, “Enhanced magnetocrystalline anisotropy in deposited cobalt clusters”, Journal of Physics: Condensed Matter, Volume 14, Number 3, 2002, pp. 605-612(8)
- Y. Qiang, R.F. Sabiryanov, S.S. Jaswal, Y. Liu, H. Haberland and D.J. Sellmyer, “Magnetism of Co Nanocluster Films”, Phys. Rew. B 66, 064404 (2002).
- Y. Qiang, R. Morel, E. Eastham, J.M. Meldrim, J. Kraft, A. Fert, H. Haberland, D.J. Sellmyer, “Magnetic properties of cobalt clusters embedded in a nonmagnetic matrix (Ag, Cu, SiO2)”, Cluster and Nanostructure Interfaces, ed. By P. Jena, S.N. Khanna and B.K. Rao, Would Scientific, 2000.
- J.M. Meldrim, Y. Qiang, D.J. Sellmyer, H. Haberland, “Magnetic properties of cluster-beam synthesized Co-noble metal films”, J. Appl. Phys. 87, 9 (2000) 7013
- G. Kleer, E. Schaeffer, M. Bodmann, J. Kraft, Y. Qiang and H. Haberland, ''Hard and wear resistant coatings for molding and embossing of glasses at elevated temperature'', Materialswissenschaft und Werkstofftechnik, 29, 545-554 (1998).
- Y. Qiang, Y. Thurner, Th. Reiners, O. Rattunde and H. Haberland, “TiN and TiAlN coatings deposited at room temperature by Energetic Cluster Impact (ECI)”, Surface and Coatings Technology, 101/1-3, 1998, p. 27-32
- D.A. Eastham, Y. Qiang, T. Maddock, J. Kraft, J.-P Schille, G.S. Thompson and H. Haberland, ''Quenching of ferromagnetism in cobalt clusters embedded in copper'', J. Phys: Condens. Matter 9 (1997) L497-L502.
- H. Haberland, M. Moseler, Y. Qiang, O. Rattunde, Th. Reiners and Y. Thurner, “Energetic Cluster Impact (ECI): New Features in Deposition Technology”, Proceeding of the Internal. Conf. on Beam Processing of Advanced Materials, Cleveland, OH, Nov. 1995
- H. Haberland, M. Leber, M. Moseler, Y. Qiang, O. Rattunde, Th. Reiners and Y. Thurner, “A new low temperature thin film deposition process: Energetic Cluster Impact (ECI)”, MRS Symposium Proceedings Vol.388, April 17-20, 1995, San Francisco, USA
- H. Haberland, M. Moseler, Y. Qiang, O. Rattunde, Th. Reiners and Y. Thurner, “Energetic Cluster Impact (ECI): a new method for thin film formation”, Surface Review and Letter, vol.3, no.1 (1996) 887-890.
- H. Haberland, M, Mall, M. Moseler, Y. Qiang, Th. Reiners and Y. Thurner, “Filling of micro-sized contact holes with copper by Energetic Cluster Impact (ECI)”, J. Vac. Sci. Technol. A12, 2925 (1994)
- L.F. Huang, Y. Qiang, S.H. Liu, et. al. “Preparation and characterization of optical ZnS films by IBAD”, Chinese J. Vac. Sci. Technol., 5 (1991)7, p.56
- Y. Qiang, ``Laser chemical vapor deposition'', Vacuum and Cryogenics (Chinese), 6 (1987) 1, p. 44.
- Y. Qiang, ``Preparation and application of metal ultrafines'', Vacuum Application (Chinese), 2 (1986) 4, p. 7-14
- Y. Qiang, “Measurement of adsorption isotherms for N2, H2 and He gases on homemade molecular sieves 5A at low temperature and low pressure”, Vacuum and Cryogenics (Chinese), 5(1986) 4, p.32-42.
- Y. Qiang, “Adsorption of novel gases in low pressure on the surface of inhomogeneous solids”, Vacuum and Cryogenics (Chinese), 2(1983) 4, p.9-15
Proceedings (Refereed)
- John McCloy, Weilin Jiang, Jennifer Sundararajan, You Qiang, Edward Burks, and Kai Liu, “Structure and magnetic Properties of Irradiated Fe-Fe Oxide Core-Shell Nanoclusters”, Application of Accelerators in Research and Industry, AIP Conf. Proc. 1525, 659-662 (2013); doi:10.1063/1.4802409.
- H. Zhang, M. Kaur, and Y. Qiang, “Magnetic Nanosorbents for Fast Separation of Radioactive Waste,” Global 2013, American Nuclear Society, 2013 (in press)
- M. Kaur, L. Martin, T. Todd, and Y. Qiang, “Magnetic Separation – advanced nanotechnology for future nuclear fuel recycle,” Global 2013, American Nuclear Society, 2013 (in press)
- S. K. Rastogi, J. M. F. Jabal, H. Zhang, C. M. Gibson, K. J. Haler, Y. Qiang, D. E. Aston and A. L. Branen. “Silica Coated Magnetic Nanoparticles (SMNPs): Capture and Identification of Escherichia coli using Surface Enhanced Raman Spectroscopy”. NSTI-Nanotech 2011, www.nsti.org, ISBN 978-1-4398-17138-6, vol. 3, 68-71.
- M. Kaur, Q. Yao, and Y. Qiang, “Intercluster Interaction and Magnetic Interaction between Iron Core and Iron Oxide Shell in Core-Shell Iron Nanoclusters,” MRS Online Proceedings Library, 2011.
- M. Kaur, P. Bailey, and Y. Qiang, “Colloidal Study of Magnetic Nanoparticles using Electromagnetic Separation Device,” IEEE Nano Online Proceedings Library, 2011.
- J.A. Sundararajan, T. Schimel, M. Kaur, Y. Qiang, C.M. Wang, D. R. Baer and S.M. Bruemmer, “Heat Treatment on Ni and Cr-Doped Ni Core-Shell Nanoparticle Granular Films”, 2011 11th IEEE International Conference on Nanotechnology, Volume 0249, Page 657, 2011.
- Y. F. Tian, R. Souza, S. S. Yan and Y. Qiang, “Giant Positive Magnetoresistance of Ferromagnetic Semiconductor Oxide Nanomaterials." 2010 MRS Spring Meeting Symposium proceedings.
- M. Kaur, H. Han, J. Kaczor, A. Johnson, A. Paszczynski and Y. Qiang, ”Coated Magnetic Nanoparticles for Acidic Nuclear Waste Separation”, 2010 MRS Spring Meeting Symposium AA proceedings, AA09-05.
- Baer, D. L., P. G. Tratnyek, J. E. Amonette, J. T. Nurmi, Y. Qiang, Sharma, R. L. Penn, C. Chun, Nachimuthu, Tuning the Properties of Iron Nanoparticles for Reactivity and Aging. International Environmental Nanotechnology Conference--Applications and Implications, Chicago, IL, U.S. Environmental Protection Agency, 2009, EPA 905-R909-032.
- You Qiang, Andrzej Paszczynski , Amit Sharma, and Ryan Souza, “Conjugates of enzyme-magnetic nanoparticles for water remediation”, International Environmental Nanotechnology Conference--Applications and Implications, Chicago, IL, U.S. Environmental Protection Agency, 2009, EPA 905-R909-032.
- 12. You Qiang, Amit Sharma, Daniel Meyer, Jiji Antony, Muhammad Faheem, Jamie Hass, Alan McConnaughey, Ryan Souza and Michael Campanell, “Synthesis, Properties and Biomedical Applications of Novel Core-Shell Iron Magnetic Nanoparticles”, proceedings of the Nanotechnology Conference, May 20-24, 2007, Santa Clara, California, U.S.A.
- You Qiang , Amit Sharma, Andrzej Paszczynski , and Daniel Meyer, “Conjugates of Enzyme-Magnetic Nanoparticles for Bioremediation”, proceedings of the Cleantech2007, May 23-24, 2007, Santa Clara, California, U.S.A.
- Jiji Antony, Joseph Nutting, Donald R. Baer and You Qiang, “Nanoporous and nanostructured materials made out of clusters for environmental applications”, MRS proceedings, symposium R, R10.4, 2005