III-V semiconductor nanowires for optoelectronic device applications

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dc.contributor.authorJoyce, Hannah Jen_AU
dc.contributor.authorGao, Qiangen_AU
dc.contributor.authorJagadish, Chennupatien_AU
dc.contributor.authorKim, Yongen_AU
dc.contributor.authorZou, Jinen_AU
dc.contributor.authorSmith, Leigh Men_AU
dc.contributor.authorJackson, Howard Een_AU
dc.contributor.authorYarrison-Rice, Jan Men_AU
dc.contributor.authorParkinson, Patrick Wallaceen_AU
dc.contributor.authorJohnston, Michael Ben_AU
dc.contributor.authorTan, Hark Hoeen_AU
dc.date.accessioned2015-12-10T23:35:55Z
dc.date.issued2011
dc.date.updated2016-02-24T08:22:39Z
dc.description.abstractSemiconductor nanowires have recently emerged as a new class of materials with significant potential to reveal new fundamental physics and to propel new applications in quantum electronic and optoelectronic devices. Semiconductor nanowires show exceptional promise as nanostructured materials for exploring physics in reduced dimensions and in complex geometries, as well as in one-dimensional nanowire devices. They are compatible with existing semiconductor technologies and can be tailored into unique axial and radial heterostructures. In this contribution we review the recent efforts of our international collaboration which have resulted in significant advances in the growth of exceptionally high quality IIIV nanowires and nanowire heterostructures, and major developments in understanding the electronic energy landscapes of these nanowires and the dynamics of carriers in these nanowires using photoluminescence, time-resolved photoluminescence and terahertz conductivity spectroscopy.
dc.identifier.issn0079-6727
dc.identifier.urihttp://hdl.handle.net/1885/69938
dc.publisherPergamon Press
dc.sourceProgress in Quantum Electronics
dc.subjectKeywords: Complex geometries; Conductivity spectroscopy; Electronic energies; Fundamental physics; Growth; Heterostructures; High quality; II-IV semiconductors; International collaborations; Nanowire devices; Nanowire heterostructures; New applications; Semiconduct Electron microscopy; Growth; IIIV semiconductors; Nanowire; Photoluminescence; Terahertz spectroscopy
dc.titleIII-V semiconductor nanowires for optoelectronic device applications
dc.typeJournal article
local.bibliographicCitation.issue2-3
local.bibliographicCitation.lastpage75
local.bibliographicCitation.startpage23
local.contributor.affiliationJoyce, Hannah J, College of Physical and Mathematical Sciences, ANU
local.contributor.affiliationGao, Qiang, College of Physical and Mathematical Sciences, ANU
local.contributor.affiliationTan, Hoe Hark, College of Physical and Mathematical Sciences, ANU
local.contributor.affiliationJagadish, Chennupati, College of Physical and Mathematical Sciences, ANU
local.contributor.affiliationKim, Yong, Dong-A University
local.contributor.affiliationZou, Jin, University of Queensland
local.contributor.affiliationSmith, Leigh M , University of Cincinnati
local.contributor.affiliationJackson, Howard E , University of Cincinnati
local.contributor.affiliationYarrison-Rice, Jan M , University of Miami
local.contributor.affiliationParkinson, Patrick Wallace, University of Oxford
local.contributor.affiliationJohnston, Michael B, University of Oxford
local.contributor.authoruidJoyce, Hannah J, u4193607
local.contributor.authoruidGao, Qiang, u4006742
local.contributor.authoruidTan, Hoe Hark, u9302338
local.contributor.authoruidJagadish, Chennupati, u9212349
local.description.embargo2037-12-31
local.description.notesImported from ARIES
local.identifier.absfor020504 - Photonics, Optoelectronics and Optical Communications
local.identifier.absseo970102 - Expanding Knowledge in the Physical Sciences
local.identifier.ariespublicationf2965xPUB2166
local.identifier.citationvolume35
local.identifier.doi10.1016/j.pquantelec.2011.03.002
local.identifier.scopusID2-s2.0-79957929890
local.identifier.thomsonID000292787000001
local.type.statusPublished Version

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