Chin-Tien Yang scite author profile

Chin-Tien Yang

5Publications

27Citation Statements Received

0Citation Statements Given

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Affiliations

Industrial Technology Research Institute, ITRI International

Publications

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A highly flexible platform for nanowire sensor assembly using a combination of optically induced and conventional dielectrophoresis

Lin¹,

Ho²,

Yang³

et al. 2014

Opt. Express

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The number and position of assembled nanowires cannot be controlled using most nanowire sensor assembling methods. In this paper, we demonstrate a high-yield, highly flexible platform for nanowire sensor assembly using a combination of optically induced dielectrophoresis (ODEP) and conventional dielectrophoresis (DEP). With the ODEP platform, optical images can be used as virtual electrodes to locally turn on a non-contact DEP force and manipulate a micron- or nano-scale substance suspended in fluid. Nanowires were first moved next to the previously deposited metal electrodes using optical images and, then, were attracted to and arranged in the gap between two electrodes through DEP forces generated by switching on alternating current signals to the metal electrodes. A single nanowire can be assembled within 24 seconds using this approach. In addition, the number of nanowires in a single nanowire sensor can be controlled, and the assembly of a single nanowire on each of the adjacent electrodes can also be achieved. The electrical properties of the assembled nanowires were characterized by IV curve measurement. Additionally, the contact resistance between the nanowires and electrodes and the stickiness between the nanowires and substrates were further investigated in this study.

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Physical properties of an oxide photoresist film for submicron pattern lithography

et al. 2013

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Deep Dry Etching Patterned Silicon Using GeSbSnOx Thermal Lithography Photoresist

Lin

Yang

et al. 2011

IEEE Trans. Magn.

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Blue laser lithography for making antireflective submicron structures on silicon

Tsai

Cheng

Yang

et al. 2013

OPT REV

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Submicron-size patterning on the sapphire substrate prepared by nanosphere lithography and nanoimprint lithography techniques

et al. 2013

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Chin-Tien Yang

A highly flexible platform for nanowire sensor assembly using a combination of optically induced and conventional dielectrophoresis

Physical properties of an oxide photoresist film for submicron pattern lithography

Deep Dry Etching Patterned Silicon Using GeSbSnOx Thermal Lithography Photoresist

Blue laser lithography for making antireflective submicron structures on silicon

Submicron-size patterning on the sapphire substrate prepared by nanosphere lithography and nanoimprint lithography techniques

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