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BOOKS Stuart R. Wenham, Martin A. Green, Muriel E. Watt, Richard P. Corkish, “Applied Photovoltaics” (Second Edition), Centre for Photovoltaic Engineering, 2005 (printed February 2006 and to be translated into Spanish and Chinese). BOOK CHAPTERS A.G. Aberle, “Progress in crystalline silicon thin-fi lm solar cells”, in: Progress in Solar Energy Research (Nova Science Publishers, Hauppauge, NY, USA), in press (invited). R. Corkish, “Photovoltaic Materials”, in “Encyclopedia <strong>of</strong> Chemical Processing”, Vol. 4, DOI: 10.1081/E-ECHP-120007896, Taylor & Francis, 2006, p.2129-2138 (invited). R. Corkish, “Howard keeps us stuck in the coal age”, in “Renewable Energy”, Volume 229 in the Spinney Press series on social issues, “Issues in Society”, ed. Justin Healey, ISBN 1 920801 39 1, for Australian secondary school students (http://www.spinneypress.com. au/229_book_desc.html). (Reprinted from Sydney Morning Herald, 16 June 2004, p. 15.) M.A. Green, “Photovoltaic Applications <strong>of</strong> Nanostructures”, in A.A. Baladin and K.L. Wang (eds.), “Handbook <strong>of</strong> Semiconductor Nanostructures and Devices”, 2005 (invited). M.A. Green, “High Effi ciency Silicon Solar Cell Concepts” in “Solar Cells: Materials, Manufacture and Operation”, T. Markvart and L. Castener (eds.), Elsevier, Oxford, 2005, p.190-214 (invited). M.A. Green, “Eureka!” in “The Ideas Book”, L. Carroli (ed.), Brisbane, <strong>University</strong> <strong>of</strong> Queensland Press, 2005. M.A. Green, “Very High-Effi ciency in Silico Photovoltaics” in “Artifi cial Photosynthesis: From Basic Biology to Industrial Application”, A.F. Collings and C. Critchley (eds.), Wiley-VCH, Weinheim, 2005, p.169-185 (invited). M.A. Green, “Futuristic Photovoltaics”, in “Renewable Energy 2005”, D. Flin (Ed.), Sovereign Publications, London, 2005, p.52-55, ISBN 19 03605 652 (invited). M.A. Green, “Materials for Solar Cells” in “Materials for Energy Conversion Devices”, C.C. Sorrel, S. Sugihara and J. Notvotny (Eds.), Woodhead Publishing, Cambridge, 2005, pp.1-62 (invited). M.A. Green, “Third Generation Photovoltaics” in “Solar Photovoltaic Batteries”, K. Misawa (Ed.), Nikkan Kougyo Simbun Ltd, Japan, 2006, p.186-196 (invited; translated into Japanese). M.A. Green, “Photovoltaics in Deserts”, in “Global Environment Outlook -Deserts”, Global Environment Outlook Series, United Nations Environment Programme, 2006. B.S. Richards and M.A. Green, “Photovoltaic Cells”, in “Encyclopaedia <strong>of</strong> Biomedical Engineering”, Wiley, 2005 (invited). 165
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ARC Centre of Excellence for Advanc
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Page 1. DIRECTORS' REPORT 1 2. HIGH
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the cell. Cells based on “hot”
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New Semiconductor Finger Technology
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Stanford University GCEP Grant The
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ARC Centre Review The Centre was re
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Adjunct Fellows Kylie Catchpole, BS
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Student Administration Manager Tric
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Figure 4.1.2: Example of “second-
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The fourth “spin-off” Centre st
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4 3 2 1 G During 2005 the developme
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system, microwave carrier lifetime
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Semiconductor Nanofabrication Facil
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4.3 FIRST GENERATION: WAFER-BASED P
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According to the calculated data in
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It is seen that the measured IQE in
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The re-PERT cells on n-type CZ subs
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In silicon wafers that have natural
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Based on our fi ndings, we consider
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Conductive Paste Firing Tests Basic
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Figure 4.3.2.9: Illuminated IV curv
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Silicon Nitride Passivation of Bare
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Wafer Handling PL imaging was used
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(a) (b) (c) Figure 4.3.2.18: SiN sa
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4.3.2.4 Process Engineering - Conta
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4.4 SECOND GENERATION: THIN-FILMS U
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Another highlight of the Group in 2
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whereas ALICE cells can be made by
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To illustrate the signifi cance of
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Secondary ion mass spectroscopy (SI
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Current Density (mA/cm 2 ) 16 14 12
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Generating a description of the sam
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The phonon dispersions show that if
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In addition the thesis project inve
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4.6 SILICON PHOTONICS RESEARCH GROU
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Some of these SOI LEDs were designe
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(a) (b) Figure 4.6.7: (a) Top view
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The photonic crystal processing of
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Another interesting aspect of the P
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Surprisingly high sensitivity of PL
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