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Science 27 August 2004:
Vol. 305. no. 5688, pp. 1269 - 1273
DOI: 10.1126/science.1100999
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Reports

Nanoribbon Waveguides for Subwavelength Photonics Integration

Matt Law,1,2* Donald J. Sirbuly,1,2* Justin C. Johnson,1 Josh Goldberger,1 Richard J. Saykally,1 Peidong Yang1,2{dagger}

Although the electrical integration of chemically synthesized nanowires has been achieved with lithography, optical integration, which promises high speeds and greater device versatility, remains unexplored. We describe the properties and functions of individual crystalline oxide nanoribbons that act as subwavelength optical waveguides and assess their applicability as nanoscale photonic elements. The length, flexibility, and strength of these structures enable their manipulation on surfaces, including the optical linking of nanoribbon waveguides and other nanowire elements to form networks and device components. We demonstrate the assembly of ribbon waveguides with nanowire light sources and detectors as a first step toward building nanowire photonic circuitry.

1 Department of Chemistry, University of California, Berkeley, CA 94720, USA.
2 Materials Science Division, Lawrence Berkeley National Laboratory, 1 Cyclotron Road, Berkeley, CA 94720, USA.


* These authors contributed equally to this work.

{dagger} To whom correspondence should be addressed. E-mail: p_yang{at}uclink.berkeley.edu

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THIS ARTICLE HAS BEEN CITED BY OTHER ARTICLES:
Heterogeneous Three-Dimensional Electronics by Use of Printed Semiconductor Nanomaterials.
J.-H. Ahn, H.-S. Kim, K. J. Lee, S. Jeon, S. J. Kang, Y. Sun, R. G. Nuzzo, and J. A. Rogers (2006)
Science 314, 1754-1757
   Abstract »    Full Text »    PDF »
Optical routing and sensing with nanowire assemblies.
D. J. Sirbuly, M. Law, P. Pauzauskie, H. Yan, A. V. Maslov, K. Knutsen, C.-Z. Ning, R. J. Saykally, and P. Yang (2005)
PNAS 102, 7800-7805
   Abstract »    Full Text »    PDF »


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Science. ISSN 0036-8075 (print), 1095-9203 (online)