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High-performance, transparent, and stretchable electrodes using graphene-metal nanowire hybrid structures.
. 2013 Jun 12; 13(6):2814-21.

Abstract

Transparent electrodes that can remain electrically conductive and stable under large mechanical deformations are highly desirable for applications in flexible and wearable electronics. This paper describes a comprehensive study of the electrical, optical, and mechanical properties of hybrid nanostructures based on two-dimensional graphene and networks of one-dimensional metal nanowires, and their use as transparent and stretchable electrodes. Low sheet resistance (33 Ω/sq) with high transmittance (94% in visible range), robust stability against electric breakdown and oxidation, and superb flexibility (27% in bending strain) and stretchability (100% in tensile strain) are observed, and these multiple functionalities of the hybrid structures suggest a future promise for next generation electronics. The use of hybrid electrodes to fabricate oxide semiconductor transistors and single-pixel displays integrated on wearable soft contact lenses with in vivo tests are demonstrated.

Authors+Show Affiliations

School of Nano-Bioscience and Chemical Engineering, School of Mechanical and Advanced Materials Engineering, Low-Dimensional Carbon Materials Center, Ulsan National Institute of Science and Technology (UNIST), Ulsan, 689-798, Republic of Korea.No affiliation info availableNo affiliation info availableNo affiliation info availableNo affiliation info availableNo affiliation info availableNo affiliation info availableNo affiliation info availableNo affiliation info availableNo affiliation info availableNo affiliation info available

Pub Type(s)

Journal Article
Research Support, Non-U.S. Gov't

Language

eng

PubMed ID

23701320

Citation

Lee, Mi-Sun, et al. "High-performance, Transparent, and Stretchable Electrodes Using Graphene-metal Nanowire Hybrid Structures." Nano Letters, vol. 13, no. 6, 2013, pp. 2814-21.
Lee MS, Lee K, Kim SY, et al. High-performance, transparent, and stretchable electrodes using graphene-metal nanowire hybrid structures. Nano Lett. 2013;13(6):2814-21.
Lee, M. S., Lee, K., Kim, S. Y., Lee, H., Park, J., Choi, K. H., Kim, H. K., Kim, D. G., Lee, D. Y., Nam, S., & Park, J. U. (2013). High-performance, transparent, and stretchable electrodes using graphene-metal nanowire hybrid structures. Nano Letters, 13(6), 2814-21. https://doi.org/10.1021/nl401070p
Lee MS, et al. High-performance, Transparent, and Stretchable Electrodes Using Graphene-metal Nanowire Hybrid Structures. Nano Lett. 2013 Jun 12;13(6):2814-21. PubMed PMID: 23701320.
* Article titles in AMA citation format should be in sentence-case
TY - JOUR T1 - High-performance, transparent, and stretchable electrodes using graphene-metal nanowire hybrid structures. AU - Lee,Mi-Sun, AU - Lee,Kyongsoo, AU - Kim,So-Yun, AU - Lee,Heejoo, AU - Park,Jihun, AU - Choi,Kwang-Hyuk, AU - Kim,Han-Ki, AU - Kim,Dae-Gon, AU - Lee,Dae-Young, AU - Nam,Sungwoo, AU - Park,Jang-Ung, Y1 - 2013/05/28/ PY - 2013/5/25/entrez PY - 2013/5/25/pubmed PY - 2014/1/16/medline SP - 2814 EP - 21 JF - Nano letters JO - Nano Lett. VL - 13 IS - 6 N2 - Transparent electrodes that can remain electrically conductive and stable under large mechanical deformations are highly desirable for applications in flexible and wearable electronics. This paper describes a comprehensive study of the electrical, optical, and mechanical properties of hybrid nanostructures based on two-dimensional graphene and networks of one-dimensional metal nanowires, and their use as transparent and stretchable electrodes. Low sheet resistance (33 Ω/sq) with high transmittance (94% in visible range), robust stability against electric breakdown and oxidation, and superb flexibility (27% in bending strain) and stretchability (100% in tensile strain) are observed, and these multiple functionalities of the hybrid structures suggest a future promise for next generation electronics. The use of hybrid electrodes to fabricate oxide semiconductor transistors and single-pixel displays integrated on wearable soft contact lenses with in vivo tests are demonstrated. SN - 1530-6992 UR - https://www.unboundmedicine.com/medline/citation/23701320/High_performance_transparent_and_stretchable_electrodes_using_graphene_metal_nanowire_hybrid_structures_ L2 - https://doi.org/10.1021/nl401070p DB - PRIME DP - Unbound Medicine ER -