Journal
NANO LETTERS
Volume 11, Issue 6, Pages 2490-2494Publisher
AMER CHEMICAL SOC
DOI: 10.1021/nl200965j
Keywords
Nanowire; catalyst-free growth; solar cell; transparent contact; ITO; AZO
Categories
Funding
- National Science Foundation IGERT [0903720]
- United States Air Force Office of Scientific Research STTR [AFINASSB01]
- Department of Defense [NSSEFF N00244-09-1-0091]
- United States Department of Energy [DEAC01-94-AL85000]
- Direct For Education and Human Resources [0903720] Funding Source: National Science Foundation
- Division Of Graduate Education [0903720] Funding Source: National Science Foundation
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Photovoltaic devices using GaAs nanopillar radial p-n junctions are demonstrated by means of catalyst-free selective-area metal-organic chemical vapor deposition. Dense, large-area, lithographically defined vertical arrays of nanowires with uniform spacing and dimensions allow for power conversion efficiencies for this material system of 2.54% (AM 1.5 G) and high rectification ratio of 213 (at +/-1 V). The absence of metal catalyst contamination results in leakage currents of similar to 236 nA at -1 V. High-resolution scanning photocurrent microscopy measurements reveal the independent functioning of each nanowire in the array with an individual peak photocurrent of similar to 1 nA at 544 nm. External quantum efficiency shows that the photocarrier extraction highly depends on the degenerately doped transparent contact oxide. Two different top electrode schemes are adopted and characterized in terms of Hall, sheet resistance, and optical transmittance measurements.
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