Showing results for "chan" 1-22 of 22

The publications on this page are generated nightly from the NCSU Library's Scholarly Publications Repository. This repository is by no means a fully comprehensive listing of publications. Publications can be added to the repository manually by visiting the Publications Repository Submission Form.

Title Journal Year
The role of ceramic and glass science research in meeting societal challenges: Report from an NSF-sponsored workshop Journal of the American Ceramic Society, 100(5), 1777-1803. Faber, K. T., Asefa, T., Backhaus-Ricoult, M., Brow, R., Chan, J. Y., Dillon, S., Fahrenholtz, W. G., Finnis, M. W., Garay, J. E., Garcia, R. E., Gogotsi, Y., Haile, S. M., Halloran, J., Hu, J. J., Huang, L. P., Jacobsen, S. D., & Lara-Curzio, E. 2017
Improved stability, magnetic field preservation and recovery speed in (RE)Ba2Cu3Ox-based no-insulation magnets via a graded-resistance approach Superconductor Science & Technology, 30(7). Chan, W. K., & Schwartz, J. 2017
Using ultralow dosages of electron acceptor to reveal the early stage donor-acceptor electronic interactions in bulk heterojunction blends Advanced Energy Materials, 7(12). Ho, C. H. Y., Cheung, S. H., Li, H. W., Chiu, K. L., Cheng, Y. H., Yin, H., Chan, M. H., So, F., Tsang, S. W., & So, S. K. 2017
Self-protection mechanisms in no-insulation (RE) Ba2Cu3Ox high temperature superconductor pancake coils Superconductor Science & Technology, 29(4). Wang, Y., Chan, W. K., & Schwartz, J. 2016
Effects of room-temperature tensile fatigue on critical current and n-value of IBAD-MOCVD YBa2Cu3O7-x/Hastelloy coated conductor Superconductor Science & Technology, 29(8). Rogers, S., Chan, W. K., & Schwartz, J. 2016
Accurate nanoscale crystallography in real-space using scanning transmission electron microscopy Microscopy and Microanalysis, 21(4), 946-952. Dycus, J. H., Harris, J. S., Sang, X. H., Fancher, C. M., Findlay, S. D., Oni, A. A., Chan, T. T. E., Koch, C. C., Jones, J. L., Allen, L. J., Irving, D. L., & LeBeau, J. M. 2015
High-performance three-stage cascade thermoelectric devices with 20% efficiency Journal of Electronic Materials, 44(6), 1936-1942. Cook, B. A., Chan, T. E., Dezsi, G., Thomas, P., Koch, C. C., Poon, J., Tritt, T., & Venkatasubramanian, R. 2015
Enhanced quench protection in REBa2Cu3O delta-7-based coils by enhancing three-dimensional quench propagation via thermally conducting electrical insulation IEEE Transactions on Applied Superconductivity, 25(5). Phillips, M. R., Chan, W. K., & Schwartz, J. 2015
Grain size stability and hardness in nanocrystalline Cu-Al-Zr and Cu-Al-Y alloys Materials Science & Engineering. A, Structural Materials: Properties, Microstructure and Processing, 598, 217-223. Roy, D., Mahesh, B. V., Atwater, M. A., Chan, T. E., Scattergood, R. O., & Koch, C. C. 2014
A two-dimensional ordinary, state-based peridynamic model for linearly elastic solids International Journal for Numerical Methods in Engineering, 98(8), 547-561. Le, Q. V., Chan, W. K., & Schwartz, J. 2014
Two-dimensional peridynamic simulation of the effect of defects on the mechanical behavior of Bi2Sr2CaCu2Ox round wires Superconductor Science & Technology, 27(11). Le, Q. V., Chan, W. K., & Schwartz, J. 2014
Carrier concentration modulation by hot pressing pressure in n-type nanostructured Bi(Se)Te alloy Applied Physics Letters, 103(14). Chan, T. T. E., LeBeau, J. M., Venkatasubramanian, R., Thomas, P., Stuart, J., & Koch, C. C. 2013
Fracture toughness improvements of dental ceramic through use of yttria-stabilized zirconia (YSZ) thin-film coatings Dental Materials, 29(8), 881-887. Chan, R. N., Stoner, B. R., Thompson, J. Y., Scattergood, R. O., & Piascik, J. R. 2013
Spatial and temporal resolution requirements for quench detection in (RE)Ba2Cu3Ox magnets using Rayleigh-scattering-based fiber optic distributed sensing Superconductor Science & Technology, 26(10). Chan, W. K., Flanagan, G., & Schwartz, J. 2013
Challenges in ceramic science: A report from the workshop on emerging research areas in ceramic science Journal of the American Ceramic Society, 95(12), 3699-3712. Rohrer, G. S., Affatigato, M., Backhaus, M., Bordia, R. K., Chan, H. M., Curtarolo, S., Demkov, A., Eckstein, J. N., Faber, K. T., Garay, J. E., Gogotsi, Y., Huang, L. P., Jones, L. E., Kalinin, S. V., Lad, R. J., Levi, C. G., Levy, J., & Maria, J. P. 2012
Three-dimensional micrometer-scale modeling of quenching in high aspect ratio YBa2Cu3O7- coated conductor tapes. Part II: Influence of geometrical and material properties and implications for conductor engineering and magnet design IEEE Transactions on Applied Superconductivity, 21(6), 3628-3634. Chan, W.K., & Schwartz, J. 2011
Nanostructured materials by mechanical alloying: New results on property enhancement Journal of Materials Science, 45(17), 4725-4732. Koch, C. C., Scattergood, R. O., Youssef, K. M., Chan, E. H., & Zhu, Y. T. T. 2010
Three-dimensional micrometer-scale modeling of quenching in high-aspect-ratioYBa(2)Cu(3)O(7-delta) coated conductor tapes-Part I: Model development and validation IEEE Transactions on Applied Superconductivity, 20(6), 2370-2380. Chan, W. K., Masson, P. J., Luongo, C., & Schwartz, J. 2010
Thermal stability, mechanical and electrical properties of nanocrystalline Cu3Ge Intermetallics, 16(3), 378-383. Darling, K. A., Guduru, R. K., Reynolds, C. L., Bhosle, V. M., Chan, R. N., Scattergood, R. O., Koch, C. C., Naravan, J., & Aboelfotoh, M. O. 2008
Grain-size stabilization in nanocrystalline FeZr alloys Scripta Materialia, 59(5), 530-533. Darling, K. A., Chan, R. N., Wong, P. Z., Semones, J. E., Scattergood, R. O., & Koch, C. C. 2008
Soft x-ray photoelectron spectroscopy of (HfO2)(x)(SiO2)(1-x) high-k gate-dielectric structures Journal of Vacuum Science & Technology. B, Microelectronics and Nanometer Structures, 21(4), 1777-1782. Ulrich, M. D., Hong, J. G., Rowe, J. E., Lucovsky, G., Chan, A. S. Y., & Madey, T. E. 2003
Plasma enhanced chemical vapor processing system using hollow cathode effect Patent:
Blum, J. M., Bumble, B., Chan, K. K., Conde, J. R., Cuomo, J. J., & Kane, W. F. (1992). Plasma enhanced chemical vapor processing system using hollow cathode effect. U.S. Patent No. 5,133,986. Washington, DC: U.S. Patent and Trademark Office. Blum, J. M., Bumble, B., Chan, K. K., Conde, J. R., Cuomo, J. J., & Kane, W. F.

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