Sunday, December 1, 2013

2013

1.  Hirai, D.; Bremholm, M.; Allred, J. M.; Krizan, J.; Schoop, L. M.; Huang, Q.; Tao, J.; and Cava, R. J., “Spontaneous formation of zigzag chains at the metal-insulator transition in the beta -pyrochlore CsW2O6”, Phys. Rev. Lett., 110, 166402 (2013).

2.  Krejci, A.J.; Thomas, C.G.W; Mandal, J.; Gonzalo-Juan, I.; He, W.; Stillwell, R.L.; Park, J.-H.; Prasai, D.; Volkov, V.; Bolotin, K.I.; and Dickerson J.H. “Using Voronoi Tessellations to Assess Nanoparticle-Nanoparticle Interactions and Ordering in Monolayer Films Formed through Electrophoretic Deposition”, J. of Phys. Chem. B 117, 1664-1669 (2013).

3.  Chen, S., Jenkins, S., Tao, J., Zhu Y., and Chen, J., “Anisotropic Seeded Growth of Cu-M (M=Au, Pt, or Pd) “Bimetallic Nanorods with Tunable Optical and Catalytic Properties”, J. Phys. Chem. C, 117, 8924 (2013).

4.  Han, M.G., Zhu, Y., Wu, L., Aoki, T., Volkov V., Wang, X., Chae, C., and Cheong, S.-W., “Ferroelectric switching dynamics of topological vortex domains in a hexagonal manganite”, Advanced Materials, 25, 2415-2421 (2013).

5.  Hockel, J. L., Pollard, S. D.,  Wetzlar, K. P., Wu, T.,  Zhu, Y.,  Carman, G. P., "Electrically Controlled Reversible and Hysteretic Domain Wall Evolution in Nickel Thin Film/Pb(Mg1/3Nb2/3)O3]0.68-[PbTiO3]0.32 (011) Heterostructure Observed by Lorentz TEM," Applied Physics Letters 102, 242901 (2013).

6.  Hsieh, Y.-C., Zhang, Y., Su, D., Volkov, V.V., Si, R., Wu, L., Zhu, Y., An, W., Liu, P., He, P., Ye, S., Adzic, R.R., Wang, J.X., “Ordered bilayer ruthenium-platinum core-shell nanoparticles as carbon monoxide-tolerant fuel cell catalysts”, Nature Comm., 4, 2466 (2013).

7.  Inada, H., and Zhu, Y., “Secondary electron microscopy in STEM”, chapter in   N. Tanaka Ed., 39 pages, in Scanning Transmission Electron Microscopy, Springer, in press (2013).

8.  Jiang, L., Choi, W.S., Jeen, H., Dong, S., Kim, Y., Han, M.-G., Zhu, Y., Kalinin, S., Dagotto, E., Egami, T., Lee, and Ho, N., "Tunneling Electroresistance Induced by Interfacial Phase Transitions in Ultrathin Oxide Heterostructures", Nano Letters, in press (2013).

9.  Liu, X., Liu, S., Han, M-G., Zhao, L., Deng, H., Li, J., Zhu, Y., Krusin-Elbaum, L., and O'Brien, S., “Magnetoelectricity in CoFe2O4 nanocrystal-P(VDF-HFP) thin films”, Nanoscale Res. Lett., 8, 374 (2013).

10. Meng, Q., Wu, L., and Zhu, Y., “Phonon scattering of interfacial strain field between dissimilar lattices”. Phy. Rev. B 87, 064102 (2013).

11. Nam, K.-W., Bak, S.-M., Hu, E., Yu, X., Zhou, Y., Wang, X., Wu, L., Zhu, Y., Chung, K.-Y., Yang, X.-Q., "Combining In Situ Synchrotron X-Ray Diffraction and Absorption Techniques with Transmission Electron Microscopy to Study the Origin of Thermal Instability in Overcharged Cathode Materials for Lithium-Ion Batteries", Adv. Funct. Mater., 23, 1047-1063 (2013).

12. Pan, C., H. Li, B. Akgun,  S. K. Satijia, Y. Zhu, D. Xu, J. Ortiz, D. Gersappe, and M. H. Rafailovich, "Enhancing the Efficiency of Bulk Heterojunction Solar Cells via Templated Self-Assembly", ACS Macromolecules, 46 1812-1819 (2013).

13. Piazza, L., Mann, A., Carbone, F., Ma, C., Yang, H., Li, L., and Zhu, Y., “Ultrafast structural and electronic dynamics of the metallic phase in a layered manganite”, Structure Dynamics, in press (2013).

14. Pollard, S. D., Malec, M., Bellagia, M., Kawasaki, M., and Zhu, Y., "Magnetic imaging with a Zernike-type phase plate in a transmission electron microscope," Appl. Phys. Lett., 102, 192401 (2013) (Cover article).

15. Pollard, S. D., and Zhu, Y., "The Aharonov-Bohm effect, magnetic monopoles, and reversal in spin-ice lattices," Microscopy 62 (suppl 1): S55-S64, (2013).

16. Pollard, S. D., and Zhu, Y., Gauge theory and artificial spin ices,: imaging emergent monopoles with electron microscopy, book chapter, in “In Memory of Akira Tonomura: Physicist and Electron Microscopist”, K. Fujikawa and Y. A. Ono Eds., World Scientific Publishing Co. Pte. Ltd., p. 110-121, Exp. Pub. date: October 31, 2013, ISBN-13: 978-981-4472-88-3 

17. Pulecio, J. F., Bhanja, S., and Sarkar, S., “Parallel Energy Minimizing Computation via Dipolar Coupled Single Domain Nanomagnets”, In J. E. Morris & K. Iniewski (Eds.), Nanoelectronic Device Applications Handbook (p. 940). CRC Press (2013).

18. Santos-Ortiz, R., Volkov, V., Schmid, S., Kuo, F.-L., Kisslinger, K., Nag, S., Banerjee R., Zhu, Y., and Shepherd, N. D., “The Microstructure and Electronic Band Structure of Pulsed Laser Deposited Iron Fluoride Thin-Film for Battery Electrodes”, ACS Appl. Materials and Interfaces, 5(7), 2387-2391 (2013).  

19. Volkov, V.V., Han, M.-G., and Zhu, Y., “Double-resolution electron holography with simple Fourier transform of fringe-shifted holograms”, Ultramicroscopy, 134, 175-184 (2013).

20. Wang, F., Wu, L., Key, B., Yang, X.-Q., Grey, C.P., Zhu, Y., and Graetz, J., “Electrochemical Reaction of Lithium with Nanostructured Silicon Anodes: a Study by in-situ Synchrotron X-ray Diffraction and Electron Energy-Loss Spectroscopy”, Adv. Energy Mater., 3, 1324–1331 (2013).

21. Wang, F., Wu, L., Ma. C., Su, D., Zhu, Y., and Graetz, J., “Excess Li storage and charge compensation in nanoscale Li4+xTi5O12”, Nanotechnology, 24 424006 (2013).

22. Wu, L., Meng, Q., Jooss, Ch., Zheng, J.-C., Inada, H., Su, D., Li, Q., and Zhu, Y., “Origin of Phonon Glass –Electron Crystal behavior in Thermoelectric Layered Cobaltate”, Adv. Funct. Mater. DOI: 10.1002/adfm.201301098, published online: 13 June 2013.

23. Yu X; Pan H; Wan W; Ma C; Bai J; Meng Q; Ehrlich S; Hu Y; Yang X; “A size-dependent sodium storage mechanism in Li4Ti5O12 investigated by a novel characterization technique combining in situ x-ray diffraction and chemical sodiation”, Nano letters  13, 4721(2013).

24. Zhang, Yu., Ma, C., Zhu, Y., Si, R., Cai, Y., Wang, J.X., Adzic, R.R., "Hollow core supported Pt monolayer catalysts for oxygen reduction", Catalysis Today 202 50-54 (2013).


25. Zhu, P., J. Cao, Y. Zhu, J. Geck, Y. Hidaka, S. Pjerov, T. Ritschel, H. Berger, Y. Shen, R. Tobey, J.P. Hill and X.J. Wang, "Dynamic separation of electron excitation and lattice heating during the photoinduced melting of the periodic lattice distortion in 2H-TaSe2", Appl. Phys. Lett., 103 071914 (2013).

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