The electrochemical deposition of ZnO hierarchical nanostructures directly from PHEMA hydrogel coated electrodes has been successfully demonstrated. A variety of hierarchical ZnO nanostructures, including porous nanoflakes, nanosheets and nanopillar arrays were fabricated directly from the PHEMA hydrogel coated electrodes. Hybrid ZnO-hydrogel composite films were formed with low zinc concentration and short electrodeposition time. A dual-layer structure consisting of a ZnO/polymer and pure ZnO layer was obtained with zinc concentration above 0.01 M. SEM observations and XPS depth profiling were used to investigate ZnO nanostructure formation in the early electrodeposition process. A growth mechanism to understand the formation of ZnO/hydrogel hybrid hierarchical nanostructures was developed. The I-V characteristics of the ZnO-hydrogel composite films in dark and under ultraviolet (UV) illumination demonstrate potential applications in UV photodetection.
Show multiple parent-child relationships in an expandable, hierarchical data grid that stands as the backbone of your data-centric JavaScript-based client applications. Users can drill down, as well as add, edit, delete, select, sort, group and filter rows using their mouse or keyboard.
K. Friston, J. Kilner, and L. Harrison. Journal of Physiology-Paris, 100 (1-3):
70--87(2006)Theoretical and Computational Neuroscience: Understanding Brain Functions.
P. Rong, and M. Pedram. ISLPED '05: Proceedings of the 2005 international symposium on Low power electronics and design, page 269--274. New York, NY, USA, ACM, (2005)
D. Benz, K. Tso, and L. Schmidt-Thieme. Special Issue of the Computer Networks journal on Innovations in Web Communications Infrastructure, 51 (16):
4574--4585(2007)
P. Buneman, A. Chapman, and J. Cheney. Proc. of the ACM International Conference on Management of Data (SIGMOD), page 539--550. New York, NY, USA, ACM Press, (2006)
N. Yuruk, M. Mete, X. Xu, and T. Schweiger. ICDMW '07: Proceedings of the Seventh IEEE International Conference on Data Mining Workshops, page 441--448. Washington, DC, USA, IEEE Computer Society, (2007)
J. Leskovec, J. Kleinberg, and C. Faloutsos. KDD '05: Proceedings of the eleventh ACM SIGKDD international conference on Knowledge discovery in data mining, page 177--187. New York, NY, USA, ACM, (2005)
U. O'Reilly, and F. Oppacher. Proceedings of the 1995 World Conference on
Evolutionary Computation, 2, page 573--578. Perth, Australia, IEEE Press, (29 November - 1 December 1995)
R. Salustowicz, and J. Schmidhuber. Proceedings of the Fifteenth International Conference
on Machine Learning, ICML'98, page 488--496. Madison, Wisconsin, USA, Morgan Kaufmann, (July 1998)
A. Lopez, H. Lopez, and L. Sanchez. Advances in Soft Computing - Engineering, Design and
Manufacturing, page 371--380. London, Springer, (September 2003)on line.
W. Langdon, and W. Banzhaf. Late Breaking Papers at the 2004 Genetic and
Evolutionary Computation Conference, Seattle, Washington, USA, AAAI, (26 July 2004)
D. Jackson. GECCO '07: Proceedings of the 9th annual conference on
Genetic and evolutionary computation, 2, page 1612--1619. London, ACM Press, (7-11 July 2007)
J. Hu, E. Goodman, K. Seo, and M. Pei. GECCO 2002: Proceedings of the Genetic and
Evolutionary Computation Conference, page 772--779. New York, Morgan Kaufmann Publishers, (9-13 July 2002)
S. Gustafson, and W. Hsu. Genetic Programming, Proceedings of EuroGP'2001, volume 2038 of LNCS, page 291--301. Lake Como, Italy, Springer-Verlag, (18-20 April 2001)
R. Cilibrasi, and P. Vitany. Theory of Evolutionary Algorithms, 06061, Dagstuhl, Germany, Internationales Begegnungs- und Forschungszentrum fuer
Informatik (IBFI), Schloss Dagstuhl, Germany, (5-10 February 2006)$<$http://drops.dagstuhl.de/opus/volltexte/2006/598$>$
date of citation: 2006-01-01.