Modulating the Morphology and Electrical Properties of GaAs Nanowires via Catalyst Stabilization by Oxygen
Research output: Journal Publications and Reviews › RGC 21 - Publication in refereed journal › peer-review
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Detail(s)
Original language | English |
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Pages (from-to) | 5591-5597 |
Journal / Publication | ACS Applied Materials and Interfaces |
Volume | 7 |
Issue number | 9 |
Online published | 20 Feb 2015 |
Publication status | Published - 11 Mar 2015 |
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Abstract
Nowadays, III-V compound semiconductor nanowires (NWs) have attracted extensive research interest because of their high carrier mobility favorable for next-generation electronics. However, it is still a great challenge for the large-scale synthesis of III-V NWs with well-controlled and uniform morphology as well as reliable electrical properties, especially on the low-cost noncrystalline substrates for practical utilization. In this study, high-density GaAs NWs with lengths >10 μm and uniform diameter distribution (relative standard deviation σ ∼ 20%) have been successfully prepared by annealing the Au catalyst films (4-12 nm) in air right before GaAs NW growth, which is in distinct contrast to the ones of 2-3 μm length and widely distributed of σ ∼ 20-60% of the conventional NWs grown by the H2-annealed film. This air-annealing process is found to stabilize the Au nanoparticle seeds and to minimize Ostwald ripening during NW growth. Importantly, the obtained GaAs NWs exhibit uniform p-type conductivity when fabricated into NW-arrayed thin-film field-effect transistors (FETs). Moreover, they can be integrated with an n-type InP NW FET into effective complementary metal oxide semiconductor inverters, capable of working at low voltages of 0.5-1.5 V. All of these results explicitly demonstrate the promise of these NW morphology and electrical property controls through the catalyst engineering for next-generation electronics.
Research Area(s)
- CMOS inverter, diameter control, electronic property, GaAs nanowire, oxygen
Citation Format(s)
Modulating the Morphology and Electrical Properties of GaAs Nanowires via Catalyst Stabilization by Oxygen. / Han, Ning; Yang, Zaixing; Wang, Fengyun et al.
In: ACS Applied Materials and Interfaces, Vol. 7, No. 9, 11.03.2015, p. 5591-5597.
In: ACS Applied Materials and Interfaces, Vol. 7, No. 9, 11.03.2015, p. 5591-5597.
Research output: Journal Publications and Reviews › RGC 21 - Publication in refereed journal › peer-review