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DTSTART:20221002T030000
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BEGIN:VEVENT
DTSTAMP:20221030T220806Z
UID:1490C008-5843-4BA4-B2E8-0F4B5D32FAA6
DTSTART;TZID=Australia/Sydney:20221028T100000
DTEND;TZID=Australia/Sydney:20221028T110000
DESCRIPTION:Photoluminescence (PL) imaging on crystalline silicon wafers an
 d solar cells was proposed and first demonstrated experimentally at UNSW a
 round 2005. Since then\, this measurement principle was rapidly adopted gl
 obally as a fast\, versatile and highly efficient research and development
  tool for photovoltaic devices. A wide range of quantitative analysis meth
 ods that rely on PL imaging are used today for the characterisation of sil
 icon ingots\, wafers\, and for partially and fully processed solar cells i
 n R&D and in high volume production on a daily basis.\n\nWith the expected
  massive uptake of photovoltaics as a mainstream source of electricity wor
 ldwide\, but particularly in Australia\, quality testing of installed modu
 les in the field will become highly relevant in the near term. Given the w
 ealth of information about material and device defects contained in lumine
 scence images\, PL imaging is an ideal candidate for inspection of crystal
 line silicon PV modules and for O&M of PV power plants.\n\nIn this present
 ation the history of PL imaging will be reviewed\, with examples given for
  applications at different stages of the PV value chain\, and with particu
 lar emphasis on recently developed innovative methods for the acquisition 
 of high quality PL images in full sunlight\, using the sun as the sole exc
 itation source.\n\nSpeaker(s): Prof Thorsten Trupke\, \n\nAgenda: \n1 Intr
 oduction\n\n2 Technical presentation\n\n3 Q&A\n\nVirtual: https://events.v
 tools.ieee.org/m/326899
LOCATION:Virtual: https://events.vtools.ieee.org/m/326899
ORGANIZER:b.hoex@unsw.edu.au
SEQUENCE:8
SUMMARY:PL IMAGING – APPLICATIONS ACROSS THE PHOTOVOLTAIC VALUE CHAIN
URL;VALUE=URI:https://events.vtools.ieee.org/m/326899
X-ALT-DESC:Description: <br /><p>Photoluminescence (PL) imaging on crystall
 ine silicon wafers and solar cells was proposed and first demonstrated exp
 erimentally at UNSW around 2005. Since then\, this measurement principle w
 as rapidly adopted globally as a fast\, versatile and highly efficient res
 earch and development tool for photovoltaic devices. A wide range of quant
 itative analysis methods that rely on PL imaging are used today for the ch
 aracterisation of silicon ingots\, wafers\, and for partially and fully pr
 ocessed solar cells in R&amp\;D and in high volume production on a daily b
 asis.</p>\n<p>With the expected massive uptake of photovoltaics as a mains
 tream source of electricity worldwide\, but particularly in Australia\, qu
 ality testing of installed modules in the field will become highly relevan
 t in the near term. Given the wealth of information about material and dev
 ice defects contained in luminescence images\, PL imaging is an ideal cand
 idate for inspection of crystalline silicon PV modules and for O&amp\;M of
  PV power plants.</p>\n<p>In this presentation the history of PL imaging w
 ill be reviewed\, with examples given for applications at different stages
  of the PV value chain\, and with particular emphasis on recently develope
 d innovative methods for the acquisition of high quality PL images in full
  sunlight\, using the sun as the sole excitation source.</p><br /><br />Ag
 enda: <br /><p>1 Introduction</p>\n<p>2 Technical presentation</p>\n<p>3 Q
 &amp\;A</p>
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