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Research Article

Assembly of Suspended Graphene on Carbon Nanotube Scaffolds with Improved Functionalities

Sharon Xiaodai Lim1,2Gavin Kok Wai Koon2,3Da Zhan5Zexiang Shen5Barbaros Özyilmaz1,2,3,4Chornghaur Sow1,2( )
NUS Graduate School for Integrative Sciences and Engineering (NGS)Centre for Life Sciences (CeLS)#05-0128 Medical DriveSingapore117456
Department of PhysicsBlk S12Faculty of ScienceNational University of Singapore2 Science Drive 3Singapore117542
NanoCore4 Engineering Drive 3National University of SingaporeSingapore117576
Graphene Research CentreNational University of SingaporeSingapore117542
Division of Physics and Applied PhysicsSchool of Physical and Mathematical SciencesNanyang Technological UniversitySingapore637371
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Abstract

With self-assembly being an efficient and often preferred process to build micro- and nano-materials into ordered macroscopic structures, we report a simple method to assemble monolayer graphene onto densified vertically aligned carbon nanotube (CNT) micropillars en route to unique functional three-dimensional microarchitecture. This hybrid structure provides new means of studying strain induced in suspended graphene. The strain induced could be controlled by the size and number of supporting microstructures, as well as laser-initiated localised relaxation of the graphene sheet. The assembled structure is also able to withstand high-energy electron irradiation with negligible effect on the electrical properties of the hybrid system. The hybrid system was further functionalised with quantum dots on the CNTs with the assembled top graphene layer as a transparent electrode. Significant improvements in photocurrent were achieved in this system.

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Nano Research
Pages 783-795

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Cite this article:
Lim SX, Koon GKW, Zhan D, et al. Assembly of Suspended Graphene on Carbon Nanotube Scaffolds with Improved Functionalities. Nano Research, 2012, 5(11): 783-795. https://doi.org/10.1007/s12274-012-0262-x

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Received: 15 July 2012
Revised: 28 August 2012
Accepted: 24 September 2012
Published: 16 October 2012
© Tsinghua University Press and Springer-Verlag Berlin Heidelberg 2012