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Literature DB >> 19119283

Controlled polytypic and twin-plane superlattices in iii-v nanowires.

P Caroff¹, K A Dick, J Johansson, M E Messing, K Deppert, L Samuelson.

Abstract

Semiconductor nanowires show promise for use in nanoelectronics, fundamental electron transport studies, quantum optics and biological sensing. Such applications require a high degree of nanowire growth control, right down to the atomic level. However, many binary semiconductor nanowires exhibit a high density of randomly distributed twin defects and stacking faults, which results in an uncontrolled, or polytypic, crystal structure. Here, we demonstrate full control of the crystal structure of InAs nanowires by varying nanowire diameter and growth temperature. By selectively tuning the crystal structure, we fabricate highly reproducible polytypic and twin-plane superlattices within single nanowires. In addition to reducing defect densities, this level of control could lead to bandgap engineering and novel electronic behaviour.

Entities: Chemical

Year: 2008 PMID： 19119283 DOI： 10.1038/nnano.2008.359

Source DB: PubMed Journal: Nat Nanotechnol ISSN： 1748-3387 Impact factor: 39.213

17 in total

1. Single-nanowire electrically driven lasers.

Authors: Xiangfeng Duan; Yu Huang; Ritesh Agarwal; Charles M Lieber
Journal: Nature Date: 2003-01-16 Impact factor: 49.962

2. Electronic properties of twin boundaries and twinning superlattices in diamond-type and zinc-blende-type semiconductors.

Authors:
Journal: Phys Rev B Condens Matter Date: 1993-12-15

3. Label-free detection of small-molecule-protein interactions by using nanowire nanosensors.

Authors: Wayne U Wang; Chuo Chen; Keng-hui Lin; Ying Fang; Charles M Lieber
Journal: Proc Natl Acad Sci U S A Date: 2005-02-16 Impact factor: 11.205

4. Periodically twinned nanowires and polytypic nanobelts of ZnS: The role of mass diffusion in vapor-liquid-solid growth.

Authors: Yufeng Hao; Guowen Meng; Zhong Lin Wang; Changhui Ye; Lide Zhang
Journal: Nano Lett Date: 2006-08 Impact factor: 11.189

Controlled polytypic and twin-plane superlattices in iii-v nanowires.

1. Single-nanowire electrically driven lasers.

2. Electronic properties of twin boundaries and twinning superlattices in diamond-type and zinc-blende-type semiconductors.

3. Label-free detection of small-molecule-protein interactions by using nanowire nanosensors.

4. Periodically twinned nanowires and polytypic nanobelts of ZnS: The role of mass diffusion in vapor-liquid-solid growth.

5. Twin-free uniform epitaxial GaAs nanowires grown by a two-temperature process.

6. Single quantum dot nanowire LEDs.

7. Direct measurement of the spin-orbit interaction in a two-electron InAs nanowire quantum dot.

8. High-quality InAs/InSb nanowire heterostructures grown by metal-organic vapor-phase epitaxy.

9. InAs1-xPx nanowires for device engineering.

10. Why does wurtzite form in nanowires of III-V zinc blende semiconductors?

1. Perfectly imperfect.

2. Nanowires: bringing order to twin-plane defects.

3. Flow-based solution-liquid-solid nanowire synthesis.

4. Arrays of indefinitely long uniform nanowires and nanotubes.

5. Synthesis of hexagonal close-packed gold nanostructures.

6. Design, synthesis, and characterization of novel nanowire structures for photovoltaics and intracellular probes.

7. Nanowired Bioelectric Interfaces.

Review 8. Synthetic nanoelectronic probes for biological cells and tissues.

9. Single-crystalline kinked semiconductor nanowire superstructures.

10. Large-scale and uniform preparation of pure-phase wurtzite GaAs NWs on non-crystalline substrates.