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Recent Refereed Journal Articles Print
Monday, 16 August 2010 17:38

General Information

Refereed journal articles before 2010 will be posted in an archive. Articles may also be searched by beamline, author, journal, or year. View Journal Covers showcasing ALS science.

All staff and users are reminded that when submitting any article based on work conducted in whole or in part at the ALS, must include the following acknowledgment statement:

The Advanced Light Source is supported by the Director, Office of Science, Office of Basic Energy Sciences, of the U.S. Department of Energy under Contract No. DE-AC02-05CH11231.

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2010 Refereed Publications


  1. Al-Khatatbeh, Y., Y. Lee, and B. Kiefer, “Phase relations and hardness trends of ZrO2 phases at high pressure ,” Phys. Rev. B  81(21), 214102 (2010).  12.2.2
  2. Alexandropoulos, D.I., C. Papatriantafyllopoulou, G. Aromi, O. Roubeau, S.J. Teat, S.P. Perlepes, G. Christou, and T.C. Stamatatos, “The Highest-Nuclearity Manganese/Oximate Complex: An Unusual MnII/III15 Cluster with an S = 6 Ground State,” Inorganic Chemistry  49, 3962–3964 (2010).  11.3.1
  3. Allan, P.K., B. Xiao, S.J. Teat, J.W. Knight, and R.E. Morris, “In Situ Single-Crystal Diffraction Studies of the Structural Transition of Metal-Organic Framework Copper 5-Sulfoisophthalate, Cu-SIP-3,” American Chemical Society  132 , 3605–3611 (2010).  11.3.1
  4. Alpichshev, Z., J.G. Analytis, J.-H. Chu, I.R. Fisher, Y.L. Chen, Z.-X. Shen, A. Fang, and A. Kapitulnik, “STM Imaging of Electronic Waves on the Surface of Bi2Te3: Topologically Protected Surface States and Hexagonal Warping Effects,” Phys. Rev. Lett.  104, 016401 (2010).
  5. Amaladass, E., B. Ludescher, G. Schuetz,, T. Tyliszczak, M.D. Lee, and T. Eimueller, “Nanospheres generate out-of-plane magnetization,” J. Appl. Phys.  107(5), 053911 (2010).  11.0.2
  6. Analytis, J.G., J.-H. Chu, Y. Chen, F. Corredor, R.D. McDonald, Z.-X. Shen, and I.R. Fisher, “Bulk Fermi surface coexistence with Dirac surface state in Bi2Se3: A comparison of photoemission and Shubnikov–de Haas measurements,” Phys. Rev. B  81, 205407 (2010).
  7. Armentrout, M.M., and A. Kavner, “Incompressibility of osmium metal at high pressures and temperatures,” J. Appl. Phys.  107(9), 093528 (2010).  12.2.2
  8. Atwood, J.L., E.K. Brechin, S.J. Dalgarno, L.F. Jones, A. Mossine, M.J. Paterson, N.P. Power, and S.J. Teat, “Magnetism in metal-organic capsules,” Chem. Commun.  46, 3484 (2010).  11.3.1
  9. Babbini, D.C., F.L. Mulligan, H.R. Schulhauser, T.C. Sweigart, G.S. Nichol, and S.K. Hurst, “Effect of Pnictogen Ligand Substitution on a Tripalladium Ditropylium Core,” Inorganic Chemistry  49, 4307–4312 (2010).  11.3.1
  10. Baer, M., N. Barreau, F. Couzinié-Devy, S. Pookpanratana, J. Klaer, M. Blum, Y. Zhang, W. Yang, J.D. Denlinger, H.W. Schock, L. Weinhardt, J. Kessler, and C. Heske, “Nondestructive depth-resolved spectroscopic investigation of the heavily intermixed In2S3/Cu(In,Ga)Se2 interface,” Appl. Phys. Lett.  96, 184101 (2010).
  11. Bahadur, R., L.M. Russell, and K. Prather, “Composition and Morphology of Individual Combustion, Biomass Burning, and Secondary Organic Particle Types Obtained Using Urban and Coastal ATOFMS and STXM-NEXAFS Measurements,” Aerosol Science and Technology  44, 1–12 (2010).
  12. Bai, Y.Q., X.S. Liu, P. Cook, N.L Abbott, and F.J. Himpsel, “Characterization of Surfaces Presenting Covalently Immobilized Oligopeptides Using Near-Edge X-Ray Absorption Fine Structure Spectroscopy,” Langmuir  26, 6464 (2010).
  13. Barth, H.D., M.E. Launey, A.A. MacDowell, J.W. Ager, and R.O. Ritchie, “On the effect of X-ray irradiation on the deformation and fracture behavior of human cortical bone,” Bone  46, 1475–1485 (2010).  8.3.2
  14. Berry, E.A., L.S. Huang, D.W. Lee, F. Daldal, K. Nagai, and N. Minagawa, “Ascochlorin is a novel, specific inhibitor of the mitochondrial cytochrome bc(1) complex.,” Biochim. Biophys. Acta  1797(3), 360–370 (2010).  5.0.2,5.0.1
  15. Bisig, A., J. Rhensius, M. Kammerer, M. Curcic, H. Stoll, G. Schuetz, B. Van Waeyenberge, K.W. Chou, T. Tyliszczak, L. Heyderman, S. Krzyk, A. von Bier, and M. Klaeui, “Direct imaging of current induced magnetic vortex gyration in an asymmetric potential well,” Appl. Phys. Lett.  96(15), 152506 (2010).  11.0.2
  16. Bluhm, H., and H.C. Siegmann, “Surface science with aerosols  ,” Surf. Sci.  603(10-12), 1969–1978 (2010).  11.0.2
  17. Bluhm, H., “Photoelectron spectroscopy of surfaces under humid conditions ,” J. Electron Spectrosc.  177(2-3), 71–84 (2010).  11.0.2
  18. Bogan, M.J., S. Boutet, H.N. Chapman, S. Marchesini, A. Barty, W.H. Benner, M. Frank, S.P. Hau-Riege, S. Bajt, B. Woods, M.M. Seibert, B. Iwan, N. Timneanu, J. Hajdu, and J. Schulz, “Aerosol Imaging with a Soft X-Ray Free Electron Laser ,” Aerosol Science and Technology  44(3), i–iv (2010).  None
  19. Boyko, T.D., E. Bailey, A. Moewes, and P.F. McMillan, “Class of tunable wide band gap semicondutors γ-( GexSi1-x)3N4,” Phys. Rev. B  81, 155207 (2010).
  20. Braeuer, B., A. Virkar, S.C.B. Mannsfeld, D. P. Bernstein, R. Kukreja, K. W. Chou, T. Tyliszczak, Z. Bao, and Y. Acremann, “X-ray Microscopy Imaging of the Grain Orientation in a Pentacene Field-Effect Transistor,” Chem. Mater.  22, 3693–3697 (2010).  11.0.2
  21. Braeuer, B., A. Virkar, S. Mannsfeld, D. Bernstein, R. Kukreja, R. Chou, Z. Bao, and Y. Acremann, “Scanning transmission X-ray microscopy imaging of the grain orientation in a pentacene field-effect transistor,” Orgel , 1 (2010).  11.0.2
  22. BRAUN, A., K. AKURATI, G. FORTUNATO, F. REIFFLER, A. RITTER, A.S HARVEY, A. VITAL, and T. GRAULE, “Nitrogen Doping of TiO2 Photocatalyst Forms a Second eg State in the Oxygen 1s NEXAFS Pre-edge,” Journal of Physical Chemistry C  114(1), 516–519 (2010).  9.3.2
  23. Brayshaw, S.K., J.W. Knight, P.R. Raithby, T.L. Savarese, S. Schiffers, S.J. Teat, J.E. Warren, and M.R. Warren, “Photocrystallography – design and methodology for the use of a light-emitting diode device,” J. Appl. Crystallogr.  43, 337–340 (2010).  11.3.1
  24. Buechele, A.C., C. Viragh, and I.L. Pegg, “Raman and X-ray absorption spectroscopic studies of hydrothermally alteredalkali-borosilicate nuclear waste glass,” Journal of Nuclear Materials  399, 13–25 (2010).  6.3.2
  25. Bugaris, D.A., R. Copping, T. Tyliszczak, D.K. Shuh, and J.A. Ibers, “La2U2Se9: An Ordered Lanthanide/Actinide Chalcogenide with a Novel Structure Type,” Inorganic Chemistry  49(5), 2568–2575 (2010).  11.0.2
  26. Chambreau, S.D., G.L. Vaghjiani, A. To, C. Koh, D. Strasser, O. Kostko, and S.R. Leone, “Heats of Vaporization of Room Temperature Ionic Liquids by Tunable Vacuum Ultraviolet Photoionization,” J. Phys. Chem. B  114,  1361 (January 2010).  9.0.2
  27. Chang, Y.J., A.. Bostwick, Y.S. Kim, K.. Horn, and E. Rotenberg, “Structure and correlation effects in semiconducting SrTiO3,” Phys. Rev. B  81, 235109 (2010).
  28. Chatterjee, S., J.A. Krause, W.B. Connick, C. Genre, A. Rodrigue-Witchel, and C. Reber, “Interaction of SbCl52- and Thioether Groups at the Open Coordination Sites of Platinum(II) Diimine Complexes,” Inorganic Chemistry  49(6), 2808–2815 (2010).  11.3.1
  29. Chen, Bin, A.E. Gleason, J.Y. Yan, K.J. Koski, Simon. Clark, and Raymond. Jeanloz, “Elasticity, strength, and refractive index of argon at high pressures,” Phys. Rev. B  81, 144110 (2010).  12.2.2
  30. Chen, K., N. Tamura, W. Tang, M. Kunz, Y.-C. Chou, K.-N. Tu, and Y.-S. Lai, “High precision thermal stress study on flip chips by synchrotron polychromatic x-ray microdiffraction,” J. Appl. Phys.  107(6), 063502 (2010).  12.3.2
  31. Chopdekar, R.V., M. Liberati, Y. Takamura, L.F. Kourkoutis, J.S. Bettinger, B.B. Nelson-Cheeseman, E. Arenholz, A. Doran, A. Scholl, D.A. Muller, and Y. Suzuki, “Magnetism at spinel thin film interfaces probed through soft X-rayspectroscopy techniques,” J. Magn. Magn. Mater.  322(19), 2915–2921 (2010).  4.0.2,7.3.1,6.3.1,
  32. Coker, V.S., J.A. Bennett, N.D. Telling, T. Henkel, J.M. Charnock, G. van der Laan, R.A.D. Pattrick, C.I. Pearce, R.S. Cutting, I.J. Shannon, J. Wood, E. Arenholz, I.C. Lyon, and J.R. Lloyd, “Microbial engineering of nanoheterostructures: biological synthesis of a novel magnetically recoverable palladium nanocatalyst,” American Chemical Society Nano  4, 2577–2584 (2010).  4.0.2,6.3.1
  33. Courtin-Nomade, A., H. Bril, J-.M. Beny, M. Kunz, and N. Tamura, “Sulfide oxidation observed using micro-Raman spectroscopy and micro-X-ray diffraction: The importance of water/rock ratios and pH conditions,” Am. Mineral.  95, 582–591 (2010).  12.3.2
  34. Craig, G.A., L.A. Barrios, J. Sanchez Costa, O. Roubeau, E. Ruiz, S.J. Teat, C.C. Wilson, L. Thomas, and G. Aromi, “Synthesis of a novel heptacoordinated Fe(III) dinuclear complex: experimental and theoretical study of the magnetic properties,” Dalton Transactions  39, 4874–4881 (2010).  11.3.1
  35. Cuk, T., W.W. Weare, and H. Frei, “Unusually Long Lifetime of Excited Charge-Transfer State of All-Inorganic BinuclearTiOMnII Unit Anchored on Silica Nanopore Surface,” Journal of Physical Chemistry C  114, 9167 (2010).
  36. Cunniffe, J.P., D.E. McNally, M. Liberati, E. Arenholz, C. McGuinness, and J.F. McGilp, “X-ray magnetic circular dichroism and reflection anisotropy spectroscopy Kerr effect studies of capped magnetic nanowires,” Phys. Stat. Sol. B , 123510872 (2010).  4.0.2
  37. Cutting, R.S., V.S. Coker, N.D. Telling, R.L. Kimber, C.I. Pearce, B.L. Ellis, R.S. Lawson, G. van der Laan, R.A.D. Pattrick, D.J. Vaughan, E. Arenholz, and J.R. Lloyd, “Optimizing Cr(VI) and Tc(VII) remediation through nanoscale biomineral engineering,” Environ. Sci. Technol.  44, 2577–2584 (2010).  4.0.2,6.3.1
  38. de Groot, F.MF., E. de Smit, M.M. van Schooneveld, L.R. Aramburo, and B.M. Weckhuysen, “In-situ Scanning Transmission X-Ray Microscopy of Catalytic Solids and Related Nanomaterials,” ChemPhysChem  11, 951 (2010).  11.0.2
  39. de Oteyza, D.G., Y. Wakayama, X. Liu, W. Yang, P.L. Cook, F.J. Himpsel, and J.E. Ortega, “Effect of fluorination on the molecule–substrate interactions of pentacene/Cu(1 0 0) interfaces,” Chem. Phys. Lett.  490(1-3), 54–57 (2010).
  40. Dedeo, M.T., K.E. Duderstadt, J.M. Berger, and M.B. Francis, “Nanoscale protein assemblies from a circular permutant of the tobacco mosaic virus,” Nano Letters  10(1), 181–186 (2010).  8.3.1
  41. DeGregorio, B.T., R.M. Stroud, L.R. Nittler, C. Alexander, A. Kilcoyne, and T. Zega, “Isotopic anomalies in organic nanoglobules from Comet 81P/Wild 2: Comparison to Murchison nanoglobules and isotopic anomalies induced in terrestrial organics by electron irradiation,” Geochim. Cosmochim. Acta  74, 4454 (2010).
  42. Du, Y., G. Pan, R. Moate, H. Ohldag, A. Kovacs, and A. Kohn, “Enhanced exchange anisotropy in IrMn/Co/FeB systems and its correlation with uncompensated interfacial spins,” Appl. Phys. Lett.  96(22), 222503 (2010).  6.3.1
  43. Dumitriu, I., R.C. Bilodeau, T.W. Gorczyca, C.W. Walter, N.D. Gibson, A. Aguilar, Z.D. Pesic, D. Rolles, and N. Berrah, “Inner-Shell Photodetachment from Fe,” Phys. Rev. A  81(5),  053404    (2010).
  44. Enderlein, C., YS. Kim, A. Bostwick, E. Rotengerg, and K. Horn, “The formation of an energy gap in grapheneon ruthenium by controlling the interface,” New Journal Physics  12, 033014 (2010).
  45. Escuer, A., J. Esteban, N. Aliaga-Alcalde, M. Font-Bardia, T. Calvet, O. Roubeau, and S.J. Teat, “First Structural and Magnetic Studies of Ni Clusters Containing2,6-Diacetylpyridine-dioxime as a Ligand,” Inorganic Chemistry  49, 2259–2266 (2010).  11.3.1
  46. Escuer, A., B. Cordero, M. Font-Bardia, T. Calvet, O. Roubeau, S.J. Teat, S. Fedi, and F. Fabrizi de Biani, “Manganese clusters derived from a 2,6-diacetylpyridine dioximato ligand:structure and magnetic study,” Dalton Transactions  39, 4817–4825 (2010).  11.3.1
  47. Esquinazi, P., J. Barzola-Quiquiq, D. Spemann, M. Rothermel, H. Ohldag, N. Garcia, A. Setzer, and T. Butz, “Magnetic order in graphite: Experimental evidence, intrinsic and extrinsic difficulties,” J. Magn. Magn. Mater.  322, 1156 (2010).  11.0.2,4.0.2,6.3.1
  48. Fan, Y.-J., L. Yankulin, A. Antohe, P. Thomas, C. Mbanaso, R. Garg, Y. Wang, A. Wuest, F. Goodwin, S. Huh, P. Naulleau, K. Goldberg, I. Mochi, and G. Denbeaux, “Effect of carbon contamination on the printing performance of extreme ultraviolet masks,” J. Vac. Sci. Technol. B  28(2), 321–328 (2010).  11.3.2,
  49. Feng, J., K. Engelhorn, B.I. Cho, H.J. Lee, M. Greaves, C.P. Weber, R.W. Falcone, H.A. Padmore, and P.A. Heimann, “A grazing incidence x-ray streak camera for ultrafast, single-shot measurements,” Appl. Phys. Lett.  96(13), 134102–134102  (2010).  6.0.2
  50. Fernández, Paula.V., Marina. Ciancia, Alicia.B Miravalles, and José.Man Estevez, “CELL-WALL POLYMER MAPPING IN THE COENOCYTIC MACROALGA CODIUM VERMILARA (BRYOPSIDALES, CHLOROPHYTA),” Journal of Phycology  46(3), 456–465 (2010).  1.4.3
  51. Freelon, B., A. Augustsson, J.-H. Guo, P.G.  Medaglia, A.  Tebano, G. Balestrino, C.L. Dong, C.L Chang, P.A. Glans, T. Learmonth, K.E Smith, J.  Nordgren, and Z. Hussain, “Low Energy Electronic Spectroscopy of an Infinite-layer Cuprate: A Resonant Inelastic X-ray Scattering Study of CaCuO2,” Physica C  470, 187–192 (February 2010).
  52. Friedrich, A., B. Winkler, L. Bayarjargal, E.A. Juarez-Arellano, W. Morgenroth, J. Biehler, F. Schroeder, J. Yan, and S.M. Clark, “In situ observation of the reaction of tantalum with nitrogen in a laser heated diamond anvil cell,” J. Alloys Cmpd.  502, 5–12 (2010).  12.2.2
  53. Furman, J.D., A.Y. Warner, S.J. Teat, A.A. Mikhailovsky, and A.K. Cheetham, “Tunable, ligand-based emission from inorganic-organic frameworks: A new approach to phosphors for solid state lighting and other applications,” Chem. Mater.  22(7), 2255–2260 (2010).  11.3.1
  54. Galakhov, V.R., E.Z. Kurmaev, M. Neumann, J.A. McLeod, A. Moewes, I.A. Leonidov, V.L. Kozhevnikov, and K. Kuepper, “Valence band structure and X-ray spectra of oxygen deficient ferrites SrFeOx ,” Journal of Physical Chemistry C  110, 5154 (2010).
  55. Gordon, N.C., S.S. Lien, J. Johnson, H.J. A. Wallweber, T.A. Tran, B.J. Currell, M.G. Mathieu, C. Quan, M.A. Starovasnik, S.G. Hymowitz, and R.F. Kelley, “Multiple Novel Classes of APRIL-specific Receptor-blocking Peptides Isolated by Phage Display,” J. Mol. Biol.  396(1), 166–177 (2010).  5.0.1
  56. Grass, M.E., P.G. Karlsson, F. Aksoy, M. Lundqvist, B. Wannberg, B.S. Mun, Z. Hussain, and Z. Liu, “New ambient pressure photoemission endstation at Advanced Light Source beamline 9.3.2,” Rev. Sci. Instrum.  81(5), 053106 (2010).  9.3.2
  57. Gruswitz, F., S. Chaudhary, J. Ho, A. Schlessinger, B. Pezeshki, C. Ho, A. Sali, C.M. Westhoff, and R.M. Stroud, “Function of human Rh based on structure of RhCG at 2.1 angstrom,” Proc. Natl. Acad. Sci. USA  107(21), 9638–9643 (2010).  8.3.1
  58. Guo, H.-B., A. Johs, J.M. Parks, L. Olliff, S.M. Miller, A.O. Summers, L. Liang, and J.C. Smith, “Structure and Conformational Dynamics of the Metalloregulator MerR upon Binding of Hg(II),” J. Mol. Biol.  398(4), 555–568 (2010).  12.3.1
  59. Ha, J., S. Chae, K.W. Chang, T. Tyliszczak, and P.J.M. Monteiro, “Scanning Transmission X-Ray Microscopic Study of Carbonated Calcium Silicate Hydrate,” Transportation Research Record  (2142), 83–88 (2010).  11.0.2
  60. Hahn, F., and C.A Melendres, “Synchrotron infrared reflectance microspectroscopy study of film formation and breakdown on copper,” J. Synchrotron Radiat.  17(1), 81–85 (2010).  1.4.3
  61. Hanna, G.J., and M.D. McCluskey, “Equation of state and refractive index of argon at high pressure by confocal microscopy,” Phys. Rev. B  81(13), 132104 (2010).  12.2.2
  62. Hardacre, Christop, John.D. Holbrey, Claire.L Mullan, Mark. Nieuwenhuyzen, Tristan. Youngs, Daniel.T Bowron, and Simon.J. Teat, “Solid and liquid charge-transfer complex formation between 1-methylnaphthalene and 1-alkyl-cyanopyridinium bis((trifluoromethyl)sulfonyl)imide ionic liquids,” Phys. Chem. Chem. Phys.  12, 1842–1853 (2010).  11.3.1
  63. Hay, M.B., and S.C.B Myneni, “X-ray Absorption Spectroscopy of Aqueous Aluminum-Organic Complexes,” J. Phys. Chem. A  114(20), 6138–6148 (2010).  11.0.2
  64. Himeur, F., P.K. Allan, S.J. Teat, R.J. Goff, R.E. Morris, and P. Lightfoot, “Increasing the dimensionality of hybrid vanadium oxyfluorides using ionothermal synthesis,” Dalton Transactions  39(26), 6018–6020 (2010).  11.3.1
  65. Hoener, M., D. Rolles, A. Aguilar, R.C. Bilodeau, D.A. Esteves, P. Olalde Velasco, Z.D. Pesic, E. Red, and N. Berrah, “Site-selective ionization and relaxation dynamics in heterogeneous nanosystems,” Phys. Rev. A  81(2), 021201 (2010).
  66. Hoener, M., D. Rolles, A. Aguilar, D. Esteves, RC. Bilodeau, P. Olalde Valesco, E. Red, and N. Berrah, “Site - Selective Ionization and Relaxation Dynamics in Heterogeneous Nano - Systems,” Phys. Rev. A , 1 (2010).,11.0.2
  67. Holcomb, M.B., L.W. Martin, A. Scholl, Q. He, P. Yu, C.H. Yang, S.Y. Yang, P.A. Glans, M. Valvidares, M. Huijben, J.B. Kortright, Y.H. Chu, and R. Ramesh, “Probing the evolution of antiferromagnetism in multiferroics,” Phys. Rev. B  81, 134406 (2010).,7.3.1
  68. Holcomb, M.B., L.W. Martin, A. Scholl, Q. He, P. Yu, C-H. Yang, S.Y. Yang, P-A. Glans, M. Valvidares, M. Huijben, J.B. Kortright, J. Guo, Y-H. Chu, and R. Ramesh, “Probing the evolution of antiferromagnetism in multiferroics,” Phys. Rev. B  81, 134406 (2010).,,
  69. Hor, Y.S., P. Roushan, H. Beidenkopf, J. Seo, D. Qu, J.G. Checkelsky, L.A. Wray, D. Hsieh, Y. Xia, S.-Y. Xu, D. Qian, M.Z. Hasan, N. P. Ong, A. Yazdani, and R. J. Cava, “Development of ferromagnetism in the doped topological insulator Bi2−xMnxTe3,” Phys. Rev. B  81, 195203 (2010).,
  70. Huse, N., T.K. Kim, L. Jamula, J.K. McCusker, F.M F. de Groot, and R.W. Schoenlein, “Photo-Induced Spin-State Conversion in Solvated Transition Metal Complexes Probed via Time-Resolved Soft X-ray Spectroscopy,” J. Am. Chem. Soc.  1323(19), 6809–6816 (2010).  6.0.2
  71. Imanaka, H., and M.A. Smith, “Formation of nitrogenated organic aerosols in the Titan upper atmosphere ,” Proc. Natl. Acad. Sci. USA  107(28), 12423–12428 (2010).  9.0.2
  72. Jiang, P., C. Chen, F. Borondics, P. Glans, M.W. West, C. Chang, M. Salmeron, and J. Guo, “In situ soft X-ray absorption spectroscopy investigation of electrochemical corrosion of copper in aqueous NaHCO3 solution,” Electrochemistry Communications  12(6), 820 (2010).
  73. Jiang, P., S. Porsgaard, F. Borondics, M. Koeber, A. Caballero, H. Bluhm, F. Bessenbacher, and M. Salmeron, “Room-Temperature Reaction of Oxygen with Gold: An In situAmbient-Pressure X-ray Photoelectron Spectroscopy Investigation,” J. Am. Chem. Soc.  132, 2858–2859 (2010).  11.0.2
  74. Jin, J., G.S. Chang, D.V. Boukhvalov, X.Y. Zhang, L.D. Finkelstein, W. Xu, Y.X. Zhu, E.Z. Kurmaev, and A. Moewes, “Element-specific electronic structure of Mn dopants and ferromagnetism of (Zn,Mn)O thin film,” Thin Solid Films  518, 2825 (2010).
  75. Jin, J., G S. Chang, W. Xu, Y X. Zhou, D W. Boukhvalov, L D. Finkelstein, E Z. Kurmaev, X Y. Zhang, and A. Moewes, “Electronic structure of Mn in (Zn, Mn)O probed by resonant X-ray emission spectroscopy,” Solid State Commun.  150(23-24), 1065–1068 (2010).
  76. Jin, J., G S. Chang, D W. Boukhvalov, X Y. Zhang, L D. Finkelstein, W. Xu, Y X. Zhou, E Z. Kurmaev, and A. Moewes, “Element-specific electronic structure of Mn dopants and ferromagnetism of (Zn,Mn)O thin films,” Thin Solid Films  518, 2825–2829 (2010).
  77. Jozwiak, C., J. Graf, G. Lebedev, N. Andresen, A.K. Schmid, A.V. Fedorov, F. El Gabaly, W. Wan, A. Lanzara, and Z. Hussain, “A high-efficiency spin-resolved photoemission spectrometer combining time-of-flight spectroscopy with exchange-scattering polarimetry,” Rev. Sci. Instrum.  81(5), 053904 (2010).
  78. Juarez-Arellano, E.A., B. Winkler, L. Bayarjargal, A. Friedrich, V. Milman, D.R. Kammler, S.M. Clark, J. Yan, M. Koch-Müller, F. Schröder, and M. Avalos-Borja, “Formation of scandium carbides and scandium oxycarbide from the elements at high-(P,T) conditions,” J. Solid State Chem.  183, 975–983 (2010).  12.2.2
  79. Kawaguchi, M., K. Ohnishi, K. Yamada, and Y. Muramatsu, “Intercalation chemistry and Electronic Structure of Graphite-like Layered Material BC2N,” J. Electrochem. Soc.  157(3), P13–P17 (2010).  6.3.2,
  80. Keiluweit, Marco., Peter.S. Nico, Mark.G. Johnson, and Markus. Kleber, “Dynamic Molecular Structure of Plant Biomass-Derived Black Carbon (Biochar),” Environ. Sci. Technol.  44, 1247–1253 (2010).  5.3.2
  81. Kennedy, S., G. Karotsis, C.M. Beavers, S.J. Teat, E.K. Brechin, and S.J. Dalgarno, “Metal-organic calixarene nanotubes,” Angewandte Chemie International Edition  49, 4205 (2010).  11.3.1
  82. Kennedy, S., S.J. Teat, and S.J. Dalgarno, “Versatile assembly of p-carboxylatocalix[4]arene-O-alkyl ethers,” Dalton Transactions  39(2), 384–387 (2010).  11.3.1
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  164. Smith, Laura., Richard. Page, Zhen. Xu, Paul. Litman, Jay.C. Nix, Sujay.S. Ithychanda, Jianmin. Liu, Jun. Qin, Saurav. Misra, and Carole.M Liedtke, “Biochemical basis of the interaction between cystic fibrosis transmembrane conductance regulator and immunoglobulin-like repeats of filamin,” J. Biol. Chem.  285(22), 17166–17176 (2010).  4.2.2
  165. Soorkia, S., A.J. Trevitt, T.M. Selby, D.L. Osborn, C.A. Taatjes, K.R. Wilson, and S.R. Leone, “Reaction of the C2H Radical with 1-Butyne (C4H6): Low-Temperature Kinetics and Isomer-Specific Product Detection,” J. Phys. Chem. A  114, 3340–3354 (2010).  9.0.2
  166. Srivastava, D., J.P. Schuermann, T.A. White, N. Krishnan, N. Sanyal, G.L. Hura, A. Tan, M.T. Henzl, D.F. Becker, and J.J. Tanner, “Crystal structure of the bifunctional proline utilization A flavoenzyme from Bradyrhizobium japonicum,” Proc. Natl. Acad. Sci. USA  107(7), 2878–2883 (2010).  4.2.2,12.3.1
  167. Srivastava, D., W. Zhu, W.H. Johnson, Jr., C.P. Whitman, D.F. Becker, and J.J. Tanner, “The structure of the proline utilization a proline dehydrogenase domain inactivated by N-propargylglycine provides insight into conformational changes induced by substrate binding and flavin reduction,” Biochemistry–US  49(3), 560–569 (2010).  4.2.2
  168. Stolte, W.C., R. Guillemin, I.N. Demchenko, G. Ohrwall, S.-W. Yu, J.A. Young, M. Taupin, O. Hemmers, M.N. Piancastelli, and D.W. Lindle, “Inner-shell photofragmentation of Cl2,” J. Phys. B–At. Mol. Opt.  43, 155202 (2010).,9.3.1
  169. Stolte, W.C., and G. Ohrwall, “Sulfur K-edge photofragmentation of ethylene sulfide,” J. Chem. Phys.  133, 014306 (2010).  9.3.1
  170. Stoumpos, C.C., O. Roubeau, G. Aromi, A.J. Tasiopoulos, V. Nastopoulos, A. Escuer, and S.P. Perlepes, “Depolymerization Approach in Mn Cluster Chemistry: Controlled Cleavage of a 1D Coordination Polymer Consisting of Mn8 Units in Its Constituent, Discrete Mn8,” Inorganic Chemistry  49, 359–361 (2010).  11.3.1
  171. Stoumpos, C.C., R. Inglis, O. Roubeau, H. Sartzi, A.A. Kitos, C.J. Milios, G. Aromi, A.J. Tasiopoulos, V. Nastopoulos, E.K. Brechin, and S.P. Perlepes, “Rare Oxidation-State Combinations and Unusual Structural Motifs in Hexanuclear Mn Complexes Using 2-Pyridyloximate Ligands,” Inorganic Chemistry  49, 438–4390 (2010).  11.3.1
  172. Streltsov, S.V., J. McLeod, A. Moewes, G.J. Redhammer, and E.Z. Kurmaev, “Electronic properties of pyroxenes NaCrSi2O6 and NaFeSi2O6,” Phys. Rev. B  81(4), 045118 (2010).
  173. Sutherlin, D.P., D.S. Sampath, M. Berry, G. Castanedo, Z. Chang, I. Chuckowree, J. Dotson, A. Folkes, L. Friedman, R. Goldsmith, T. Heffron, L. Lee, J. Lesnick, C. Lewis, S. Mathieu, et al ., “Discovery of (Thienopyrimidin-2-yl)aminopyrimidines as Potent, Selective, and Orally Available Pan-PI3-Kinase and Dual Pan-PI3-Kinase/mTOR Inhibitors for the Treatment of Cancer,” J Med Chem  53(3), 1086–1097 (2010).  5.0.2
  174. Taatjes, C.A., D.L. Osborn, T.M. Selby, G. Meloni, A.J. Trevitt, E. Epifanovsky, A.I. Krylov, B. Sirjean, E. Dames, and H. Wang, “Products of the Benzene + O(3P) Reaction,” J. Phys. Chem. A  114, 3355–3370 (2010).  9.0.2
  175. Takahama, S., S. Liu, and L.M. Russell, “Coatings and clusters of carboxylic acids in carbon-containing atmospheric particles from spectromicroscopy and their implicationsfor cloud-nucleating and optical properties,” J. Geophys. Res - Atmos  115, D01202 (2010).  5.3.2
  176. Tang, J., S. Nayak, J. Sanchez Costa, A. Robertazzi, R. Pievo, I. Mutikainen, O. Roubeau, S.J. Teat, P. Gamez, and J. Reedijk, “Manganese(III)-mediated cyclodimerization of a hydrazinyl derivative generating an unprecedented 1,2,3,5,6-substituted leuco-verdazyl ring,” Dalton Transactions  39(5), 1361–1365 (2010).  11.3.1
  177. Tangirala, R., J.L. Baker, A.P. Alivisatos, and D.J. Milliron, “Modular Inorganic Nanocomposites by Conversion of Nanocrystal Superlattices,” Angewandte Chemie International Edition  49(16), 2878–2882 (2010).  7.3.3
  178. Tao, F., M.E. Grass, Y. Zhang, D.R. Butcher, F. Aksoy, S. Aloni, V. Altoe, S. Alayoglu, J.R. Renzas, C.K. Tsung, Z. Zhu, Z. Liu, M. Salmeron, and G.A. Somorjai, “Evolution of Structure and Chemistry of Bimetallic Nanoparticle Catalysts under Reaction Conditions,” J. Am. Chem. Soc.  132(25), 8697–8703 (2010).  9.3.2
  179. Tao, F., S. Dag, L. Wang, Z. Liu, D.R. Butcher, H. Bluhm, M. Salmeron, and G.A. Somorjai, “Break-up Pt Catalyst Surface by High Coverage of CO,” Science  327, 850–853 (2010).  11.0.2,9.3.2
  180. Tchoul, M.N., S.P. Fillery, H. Koerner, L. Drummy, F. Oyerokun, P.A. Mirau, Mi. Durstock, and R. Vaia, “Assemblies of Titanium Dioxide-Polystyrene Hybrid Nanoparticles forDielectric Applications,” Chem. Mater. , A (2010).  7.3.3
  181. Tran, D.T., N.A. Chernova, D. Chu, A.G. Oliver, and S.R. J. Oliver, “3-D Metal-Organic Framework Based on Cationic Cationic 2-D Cuprate Layers: Cu3(OH4)[C10H6(SO3)2],” Crystal Growth & Design  10, 874–879 (2010).  11.3.1
  182. Tretter, E.M., A.J. Schoeffler, S.R. Weisfield, and J.M. Berger, “Crystal structure of the DNA gyrase GyrA N-terminal domain from Mycobacterium tuberculosis,” Proteins  78(2), 492–495 (2010).  8.3.1
  183. Trevitt, A.J., F. Goulay, C.A. Taatjes, D.L. Osborn, and S.R. Leone, “Reactions of the CN Radical with Benzene and Toluene: Product Detection and Low-Temperature Kinetics,” J. Phys. Chem. A  114, 1749–1755 (2010).  9.0.2
  184. van der Laan, G., K.W. Edmonds, E. Arenholz, N.R. Farley, and B.L. Gallagher, “Valence-state model of strain-dependent Mn L2,3 x-ray magnetic circular dichroism from ferromagnetic semiconductors,” Phys. Rev. B  81, 214422 (2010).  4.0.2,6.3.1
  185. Viciano-Chumillas, M., S. Tanase, O. Roubeau, S.J. Teat, L.J. de Jongh, and J. Reedijk, “An Oxide-Centered Trinuclear Manganese(III) Compound with a Bulky Phenol-Pyrazolate Ligand,” European Journal of Inorganic Chemistry (6), 947–951 (2010).  11.3.1
  186. Virgili, J.M., M.L. Hoarfrost, and R.A. Segalman, “Effect of an Ionic Liquid Solvent on the Phase Behavior of Block Copolymers,” Macromolecules  43(12), 000 (2010).  7.3.3
  187. Wallis, P.J., A.L. Chaffee, W.P. Gates, A.F. Patti, and J.L. Scott, “Partial Exchange of Fe(III) Montmorillonite with Hexadecyltrimethylammonium Cation Increases Catalytic Activity for Hydrophobic Substrates,” Langmuir  26(6), 4258–4265 (2010).  5.3.2
  188. Wang, Xin., S. Yakovlev, K.M. Beers, M.J. Park, S.A. Mullin, K. Downing, and N.P Balsara, “On the Origin of Slow Changes in Ionic Conductivity of Model Block Copolymer Electrolyte Membranes in Contact with Humid Air,” Macromolecules  43(12), 5306–5314 (2010).  7.3.3
  189. Wang, J., B. Yang, T.A. Cool, and N. Hansen, “Absolute Cross-Sections for Dissociative Photoionization of Some Small Esters,” Int. J. Mass Spectrom.  292, 14–22 (2010).  9.0.2
  190. Wang, K., Z. Liu, T. Herranz, M. Salmeron, and H. Liang, “In Situ Spectroscopic Observation of Activation andTransformation of Tantalum Suboxides,” J. Phys. Chem. A  114(7), 2489–2497 (2010).  9.3.2
  191. Watanabe, S., M. Resch, W. Lilyestrom, N. Clark, J.C. Hanssen, C. Peterson, and K. Luger, “Structural characterization of H3K56Q nucleosomes and nucleosomal arrays,” Biochim. Biophys. Acta  1799, 480–486 (2010).  4.2.2
  192. Webb, B.N., J.W. Ballinger, E. Kim, S.M. Belchik, K. Lam, B. Youn, M.S. Nissen, L. Xun, and C. Kang, “Characterization of Chlorophenol 4-Monooxygenase (TftD)and NADH:FAD Oxidoreductase (TftC) of Burkholderiacepacia AC1100,” J. Biol. Chem.  285(3), 2014–2027 (2010).  8.2.1
  193. Weinert, E.E., L. Plate, C.A. Whited, C. Olea Jr., and M.A. Marletta, “Determinants of Ligand Affinity and Heme Reactivity in H-NOX Domains,” Angewandte Chemie International Edition  49(4), 720–723 (2010).  5.0.3
  194. Weinhardt, L., O. Fuchs, M. Blum, M. Baer, M. Weigand, J.D. Denlinger, Y. Zubavichus, M. Zharnikov, M. Grunze, C. Heske, and E. Umbach, “Resonant X-ray emission spectroscopy of liquid water: Novel instrumentation, high resolution, and the “map” approach,” J. Electron Spectrosc.  177, 206 (2010).
  195. Wu, J., J. S. Park, W. Kim, E. Arenholz, M. Liberati, A. Scholl, Chanyong Hwang, Y. Z. Wu, and Z. Q. Qiu, “Direct measurement of rotatable and frozen CoO spins in exchange bias system of CoO/Fe/Ag(001),” Phys. Rev. Lett.  104, 217204 (2010).  4.0.2,
  196. Wu, M., H.D. Le, M. Wang, V. Yurkov, A. Omelchenko, M. Hnatowich, J.C. Nix, L.V. Hryshko, and L. Zheng, “Crystal structures of progressive Ca2+ binding states of the Ca2+ sensor Ca2+ binding domain 1 (CBD1) from the CALX Na+/Ca2+ exchanger reveal incremental conformational transitions.,” J. Biol. Chem. , 2554 (2010).  4.2.2
  197. Wurz, R.P., L.H. Pettus, B. Henkle, L. Sherman, M. Plant, K. Miner, H.J. McBride, L.M. Wong, C.J. Saris, M.R. Lee, S. Chmait, C. Mohr, F. Hsieh, and A.S. Tasker, “Part 2: Structure-activity relationship(SAR)investigations of fused pyrazoles as potent, selective and orally available inhibitors of p38(alpha) mitogen-activated protein kinase,” Bioorganic & Medicinal Chemistry  20, 1680–1684 (2010).  5.0.1
  198. Xu, G-F., P. Gamez, S.J. Teat, and J. Tang, “Praseodymium(III)-based bis-metallacalix[4]arene with host–guest behaviour ,” Dalton Transactions  39(18), 4353–4357 (2010).  None
  199. Yamamoto, S., T. Kendelewicz, J.T. Newberg, G. Ketteler, D.E. Starr, E.R. Mysak, K.J. Andersson, H. Ogasawara, H. Bluhm, M. Salmeron, G.E. Brown, Jr., and A. Nilsson, “Water Asorption on alpha-Fe2O3(0001) at near Ambient Conditions,” Journal of Physical Chemistry C  114(5), 2256–2266 (2010).  11.0.2
  200. Yang, H., C.M. Beavers, Z. Wang, A. Jiang, Z. Liu, H. Jin, B.Q. Mercado, M.M. Olmstead, and A.L. Balch, “Isolation of a Small Carbon Nanotube: The Surprising Appearance of D5h(1)-C90.,” Angewandte Chemie International Edition  49(5), 886–890 (2010).  11.3.1
  201. Yu, Y., D.M. Smith, HM. K, V. Rodriguez, A.L. Goldberg, and Y. Cheng, “Interactions of PAN's C-termini with archaeal 20 proteasome and implications for the eukaryotic proteasome-ATPase interactions,” EMBO J.  29, 692–702 (2010).  8.3.1,5.0.2
  202. Zhang, J., J. H. Guo, J. W. Chiou, W. F. Pong, et al ., “Understanding the scattering mechanism of single-walled carbon nanotube based gas sensors,” Carbon  48(7), 1970–1976 (2010).
  203. Zhou, J., L.K. Takahashi, K.R. Wilson, S.R. Leone, and M. Ahmed, “Internal Energies of Ion-Sputtered Neutral Tryptophan and Thymine Molecules Determined by Vacuum Ultraviolet Photoionization,” Analytical Chemistry  82, 3905 (2010).  9.0.2
  204. Zones, S.I., S-J. Hwang, M.M. Olmstead, S.J. Teat, A. Jackowski, A.W. Burton, and C. Kim, “A Most Unusual Zeolite Templating: Cage to Cage Connection of One Guest Molecule,” Journal of Physical Chemistry C  114, 8899–8904 (2010).  11.3.1
  205. Non-Refereed Journal Articles
  206. Chen, C-K., S.S. F. Leung, C. Guilbert, M.P. Jacobson, J.H. McKerrow, and L.M. Podust, “Structural characterization of CYP51 from Trypanosoma cruzi and Trypanosoma brucei bound to the antifungal drugs posaconazole and fluconazole,”   4(4), e651 (2010).  8.3.1
  207. Chrysochoou, M.., D.R. Ferreira, and C.P. Johnston, “Calcium polysulfide treatment of Cr contaminated soil,”   179, 650–657 (2010).  10.3.2
  208. Neu, T.R., B. Manz, F. Volke, J.J. Dynes, A.P. Hitchcock, and J.R. Lawrence, “Advanced imaging techniques for assessment of structure, composition and function in biofilm systems,”   72, 1–21 (2010).  5.3.2,11.0.2
  209. Book, Chapter in a Book, or Article in a Book (excluding conference proceedings)
  210. Ohldag, H., “Micromagnetic Structure – Imaging Antiferromagnetic Domains using Soft X-ray Microscopy,” in Magnetic Properties of Antiferromagnetic Oxide MAterials - Surface Interfaces and Thin Films, L. Duo, M. Finazzi, F. Ciccaci, (Wiley, Berlin, 2010).  7.3.1,,4.0.2,6.3.1
  211. Raab, T.K., and D.A. Lipson, “The Rhizosphere: A Synchrotron-Based View of Nutrient Flow in the Root Zone,” in Developments in Soil Science , B. Singh; M. Grafe, Vol. 34, (Elsevier, Masterdam, 2010), pp.171–198.  1.4.3,
  212. based on work done at ALS (M.S., Ph.D., etc.)
  213. Croteau, P.L., “Nitrous Oxide and Molecular Nitrogen Isotopic Compositions and Aerosol Optical Properties: Experiments and Observations Relevant to Planetary Atmospheres,” doctoral dissertation, University of California, Berkeley, Berkeley, CA, 2010,  Advisor Kristie A. Boering. 9.0.2
  214. Croteau, Philip.L, “Nitrous Oxide and Molecular Nitrogen Isotopic Compositions and Aerosol Optical Properties: Experiments and Observations Relevant to Planetary Atmospheres,” doctoral dissertation, University of California, Berkeley, CA, 2010,  Advisor Kristie A. Boering. 9.0.2
  215. ERAT, Selma., “On the origin of enhanced conductivity inLaSrFe-oxide upon Ni-doping: Correlation ofelectronic structure and transport properties,” doctoral dissertation, ETH Zurich (Swiss Federal Institute of Technology), Zurich, Switzerland, 2010,  Advisor Prof. Dr. Ludwig J. GAUCKLER and Dr. Artur BRAUN. 9.3.2
  216. Gleason, A.E., “Elasticity of Materials at High Pressure,” masters thesis, University of California, Berkeley, CA, 2010,  Advisor Raymond Jeanloz. 12.2.2
  217. McLeod, J.A., “Structural characterization of Arsenic-doped amorphous Selenium,” masters thesis, University of Saskatchewan, Saskatoon, Saskatchewan, 2010,  Advisor Alexander Moewes.
  218. Smeltz, A.D., “Structure Activity Relationships in Catalysis Studied using Model Catalysts,” doctoral dissertation, Purdue University, West Lafayette , IN, 2010,  Advisor Fabio H. Ribiero. 9.3.2
  219. Wray, L.A., “Spectroscopic studies of Unconventional Superconductivity in Iron Pnictides and Doped Topological Insulators,” doctoral dissertation, Princeton University, Princeton, NJ, 2010,  Advisor M. Z. Hasan.,
  220. Xia, Y.Q., “Photoemission Stuides of a New Topological Insulator Class: Experimental Discovery of the Bi2X3 Topological Insulator Class,” doctoral dissertation, Princeton University, Princeton, NJ, 2010,  Advisor M. Z. Hasan.,