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Literature DB >> 24030778

Growth of large-scale boron nanowire patterns with identical base-up mode and in situ field emission studies of individual boron nanowire.

Fei Liu¹, Haibo Gan, Dai-Ming Tang, Yunzhe Cao, Xiaoshu Mo, Jun Chen, Shaozhi Deng, Ningsheng Xu, Dmitri Golberg, Yoshio Bando.

Abstract

Boron nanowires (BNWs) are considered as an ideal optoelectronic nanomaterial, but controlling them in identical growth mode and large-area patterns is technically challenging. Here, large-scale BNW patterns with a uniform base-up growth mode are successfully fabricated by choosing Ni film as the catalyst. Moreover, they exhibit low turn-on field (4.3 V/μm) and excellent field emission uniformity (88%).

Entities: Chemical Gene

Keywords: base-up growth mode; boron nanowire; field emission uniformity; in situ measurement; patterned growth

Year: 2013 PMID： 24030778 DOI： 10.1002/smll.201301948

Source DB: PubMed Journal: Small ISSN： 1613-6810 Impact factor: 13.281

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Cited

4 in total

Growth of large-scale boron nanowire patterns with identical base-up mode and in situ field emission studies of individual boron nanowire.

1. Ultrathin Single-Crystalline Boron Nanosheets for Enhanced Electro-Optical Performances.

2. Magnetoresistance Anomaly in Topological Kondo Insulator SmB₆ Nanowires with Strong Surface Magnetism.

Review 3. Recent progress in boron nanomaterials.

4. Fast identification of the conduction-type of nanomaterials by field emission technique.

Growth of large-scale boron nanowire patterns with identical base-up mode and in situ field emission studies of individual boron nanowire.

1. Ultrathin Single-Crystalline Boron Nanosheets for Enhanced Electro-Optical Performances.

2. Magnetoresistance Anomaly in Topological Kondo Insulator SmB6 Nanowires with Strong Surface Magnetism.

Review 3. Recent progress in boron nanomaterials.

4. Fast identification of the conduction-type of nanomaterials by field emission technique.

2. Magnetoresistance Anomaly in Topological Kondo Insulator SmB₆ Nanowires with Strong Surface Magnetism.