Steady-state and time-resolved photoluminescence from relaxed and strained GaN nanowires grown by catalyst-free molecular-beam epitaxy

Schlager, John B.; Bertness, Kristine A.; Blanchard, Paul T.; Robins, Lawrence H.; Roshko, Alexana; Sanford, Norman A.

doi:10.1063/1.2940732

Cited by 119 publications

(104 citation statements)

References 22 publications

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“…Effective diffusion length also depends on nanowire diameter, consistent with the TRPL studies in GaN [17] and near-field scanning photocurrent measurements in very small diameter ZnO nanowires [18].…”

Section: Transport Imaging In Zno Nanowires and Nanobeltssupporting

confidence: 61%

Imaging transport in nanowires using near-field detection of light

Haegel

Chisholm

Cole

2012

Journal of Crystal Growth

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Section: Transport Imaging In Zno Nanowires and Nanobeltssupporting

confidence: 61%

Imaging transport in nanowires using near-field detection of light

Haegel

Chisholm

Cole

2012

Journal of Crystal Growth

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“…It is well established that the TRPL measurements on individually dispersed and as-synthesized GaN nanostructures give a PL decay time in the range of ∼200 ps to about ∼2.7 ns dependent on the temperature and the dimensions of the nanostructure. 10 Fig. S5 † represents the decay profile of samples grown at RT, 450 and 600°C.…”

Section: (B)mentioning

confidence: 99%

“…A variety of techniques for GaN growth have been employed including the extensively used techniques such as vapour-liquid-solid (VLS), 7,8 metal-organic chemical vapour deposition (MOCVD) 9 and molecular beam epitaxy (MBE). 7,10 In the present investigation, the sputtering gun technique has been employed for GaN synthesis which is a relatively inexpensive and simpler technique that offers the possibility of growth at a lower substrate temperature. 11,12 This technique has a different growth mechanism than evaporation deposition where substances are deposited on or forced into a lattice without chemical reaction.…”

Section: Introductionmentioning

confidence: 99%

Facile synthesis and photoluminescence spectroscopy of 3D-triangular GaN nano prism islands

et al. 2014

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We report a strategy for fabrication of 3D triangular GaN nano prism islands (TGNPI) grown on Ga/Si(553) substrate at low temperature by N 2 + ions implantation using a sputtering gun technique. The annealing of Ga/Si(553) (600°C) followed by nitridation (2 keV) shows the formation of high quality GaN TGNPI crosssection. TGNPI morphology has been confirmed by atomic force microscopy. Furthermore, these nano prism islands exhibit prominent ultra-violet luminescence peaking at 366 nm upon 325 nm excitation wavelength along with a low intensity yellow luminescence broad peak at 545 nm which characterizes low defects density TGNPI. Furthermore, the time-resolved spectroscopy of luminescent TGNPI in nanoseconds holds promise for its futuristic application in next generation UV-based sensors as well as many portable optoelectronic devices.

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“…Although the surface of the InGaN hexagonal nanoplates was exposed to air, visible emission was obtained, indicating a slow nonradiative surface recombination rate for the GaN-based nanocrystals. 6,21 The PL FWHM of the nanoplate sample was evaluated to be 103 nm, which is double the electroluminescence FWHM of well developed amber (594 nm) InGaN LEDs. 22 The spatial fluctuation in the In composition of InGaN increases with increased In composition; therefore, one of the reasons for the broad PL spectrum was the compositional fluctuation of In inside each nanoplate.…”

Section: Experiments and Resultsmentioning

confidence: 99%

Well-arranged novel InGaN hexagonal nanoplates at the tops of nitrogen-polarity GaN nanocolumn arrays

Kouno

Kishino

2012

AIP Advances

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Periodically arranged novel InGaN hexagonal nanoplates were fabricated at the tops of square-lattice N-polarity GaN nanocolumn arrays. The key finding in this work is that the growth of InGaN on N-polarity GaN nanocolumns led to a peculiar nanoplate structure. The InGaN nanoplates with thicknesses of 50-100 nm extended outward from the narrow nanocolumns with diameters of 100-150 nm, to form larger hexagonal nanoplates with a typical side length of 250 nm

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Steady-state and time-resolved photoluminescence from relaxed and strained GaN nanowires grown by catalyst-free molecular-beam epitaxy

Cited by 119 publications

References 22 publications

Imaging transport in nanowires using near-field detection of light

Imaging transport in nanowires using near-field detection of light

Facile synthesis and photoluminescence spectroscopy of 3D-triangular GaN nano prism islands

Well-arranged novel InGaN hexagonal nanoplates at the tops of nitrogen-polarity GaN nanocolumn arrays

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