thin-film silicon technology and...
TRANSCRIPT
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ThinThin--Film Silicon Technology and Film Silicon Technology and ThinThin Film Silicon Technology and Film Silicon Technology and ManufacturingManufacturing
Recap of a-Si and a-Si cell technologyT f Si f t i tTypes of a-Si manufacturing systemsa-Si cell and module manufacturing at XunlightXunlight products and installationsXunlight products and installations
Aarohi VijhAarohi Vijh,Xunlight Corporationavijh@xunlight [email protected]/20/2012
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About About XunlightXunlightAbout About XunlightXunlightFounded in 2002; spinoff from UTMakes flexible, lightweight BIPV/BAPV modulesTriple-Junction a-SiM k f i iMakes own manufacturing equipmentPlants in Toledo, OH and Kunshan, ChinaAbout 80 people 25 MW nameplate capacityAbout 80 people, 25 MW nameplate capacity
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RecapRecapppAmorphous SiliconAmorphous Silicon
Inexpensive, abundant raw materialpEnd product non-toxicStrongly absorbingStrongly absorbingLow temperature coeff of powerL i iblLow temperature processing possibleInsensitive to water and oxygenEnvironmentally friendly processSubstrate or superstrate configurationp g
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Major PlayersMajor PlayersMajor PlayersMajor Players
Mitsubishi, Sharp, KanekapCanon (until 2002), Xunlight, UnisolarFlexcell Powerfilm Fuji ElectricFlexcell, Powerfilm, Fuji ElectricApplied Materials (until last year)O lik /T k ElOerlikon/Tokyo ElectronDozens of small players in Asia
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RecapRecapppAmorphous SiliconAmorphous Silicon
Behaves like a direct band-gap g psemiconductorNeeds hydrogen for adequate electronic ee s y oge o a equate e ect o c qualityLow carrier mobility (especially in doped Low carrier mobility (especially in doped a-Si) means that p-i-n structures, rather than p-n structures must be usedthan p n structures must be used.Light enters through p-layer
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RecapRecapppAmorphous SiliconAmorphous Silicon
Efficiencyy◦ around 7% for a-Si based structures◦ Around 10% for uc-Si based structures
Light Induced Degradation◦ Can be managed by using multijunction Can be managed by using multijunction
structures◦ Can be greatly reduced by using uc-SiCan be greatly reduced by using uc Si
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Focus of TalkFocus of TalkFocus of TalkFocus of Talk
Steel SubstrateRoll-to-Roll ProcessFlexible ModulesFlexible Modules
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RecapRecapppSubstrateSubstrate--Style Amorphous Silicon CellStyle Amorphous Silicon Cell
ITO
ITO
TCO
p-type a-SiSputtered TCOs and MetalSi by Plasma Enhanced CVD (SiH4+H2+dopants)
intrinsic a-Si or a-SiGe(absorber)n-type a-Si
(SiH4+H2+dopants)Grid deposition by thin-film or thick-film processes
TCO
p
Steel
Reflective Metal
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The The ii layerlayerThe The ii layerlayer
Function is to absorb light of specific g pwavelengths, and not lose too many of the photogenerated carriersp gBandgap is controlled by Ge alloyingGe alloying creates more defectsGe alloying creates more defectsBandgap grading and buffer layers are often usedoften usedMicrocrystalline Si is also used instead of G ll iGe alloying.
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The n layerThe n layerThe n layerThe n layer
Must have high optical transmission in g pwavelength range of interestDoped with PH3ope w t 3Generally not alloyed
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The p layerThe p layerThe p layerThe p layer
Must have high optical transmission in the g pabsorption wavelength range of the cell it is covering.gMust form good junctions with ITO and with n-layer.yTwo major approaches◦ a-SiC:H (using SiH4+CH4+BF3 or ◦ a-SiC:H (using SiH4+CH4+BF3 or
SiH4+TMB)◦ a-Si:H based matrix with Si crystallites, with a Si:H based matrix with Si crystallites, with
BF3 doping.
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The Back ReflectorThe Back ReflectorThe Back ReflectorThe Back Reflector
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The BackThe Back--ReflectorReflectorThe BackThe Back ReflectorReflector
Allows thinner cells◦ Stronger electric field, less material usage,
faster deposition
Usually Ag/ZnO or Al/ZnOAg gives better NIR reflectivity but can Ag gives better NIR reflectivity but can only be used where moisture is not an issue (without special and expensive issue (without special and expensive techniques)Texture/diffuse reflection is generally Texture/diffuse reflection is generally desirable
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Design Consideration:Design Consideration:Ag Ag vs. Al in Moisturevs. Al in Moisture
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The Top TCO (Window)The Top TCO (Window)The Top TCO (Window)The Top TCO (Window)
¼ wavelength ITO (around 70 nm)to g ( )maximize green transmissionSheet resistances of around 100-150 S eet es sta ces o a ou 00 50 ohms achievable in production
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ITO Thickness vs QEITO Thickness vs QEITO Thickness vs. QEITO Thickness vs. QE
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RecapRecapBlue Red Blue Red
Vtop
ppTwoTwo--Terminal Multijunction CellTerminal Multijunction Cell
pVsingle
Contact = VBottomVbottom
I 2I
Ptandem = I * (Vbottom + Vtop) > Psingle = 2I * Vsinglebecause Vtop > Vbottom (and assuming contact loss is low).p ( g )
Current must be balancedBandgap thickness reflectors are the usual knobs Also ARBandgap, thickness, reflectors are the usual knobs. Also AR.Contact/Junction loss must be lowThinner cells = stronger electric fieldsgMany compromises in practice
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IntroductionIntroduction
(Transparent conductor)
Amorphous Silicon Amorphous Silicon –– Triple Junction CellTriple Junction Cell
conductor)
Stack of 3 n-i-p cellsi-layers have different EgL li h i d d
} B k
Lower light-induced degradationVoc ~ 2.2 V } Back
Reflector
Voc 2.2 VJsc ~ 7-8 mA/cm2
Stable Efficiency >11% with Substrateµc-Si bottom cells
Figure from: X. Deng, A. Vijh, et al., “Optimization of a-SiGe based triple, tandem and single-junction solar cells”, 31st IEEE Photovoltaic Specialist Conference, Orlando, Florida, January, 2005.
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IV/QEIV/QEIV/QEIV/QE
IVs: X. Deng, P. Agarwal and Q. Fan, University of Toledo
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Types of Deposition SystemsTypes of Deposition SystemsTypes of Deposition SystemsTypes of Deposition Systems
ClusterIn-LineSingle Piece/BatchSingle Piece/BatchRoll to Roll In-Line
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ClusterClusterClusterCluster
Individual Individual chambers served by a robotby a robotMax process fl ibiliflexibility
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InIn--LineLineInIn LineLine
Substrate moves from chamber to chamber in sequenceIf one chamber fails, entire process stops o e c a be a s, e t e p ocess stops
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BatchBatchBatchBatch
Cluster Systems can be single or batch y gmode
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Roll to Roll SystemsRoll to Roll SystemsRoll to Roll SystemsRoll to Roll Systems
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Characteristics of RollCharacteristics of Roll--toto--Roll Roll ProcessingProcessing
Simplicityp ySteady operationWell suited to high volume productionWell suited to high volume productionSpeed must be the same in all zonesTi i f d l hTime is transformed to lengthPressure must generally be the sameNo cleanroom neededPatterning is difficultgBatch sizes are large
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Flexible aFlexible a--Si Manufacturing Si Manufacturing Process at Process at XunlightXunlight
Sputter PECVD SputterSputterBack-Reflector
PECVDSemiconductor
SputterTop TCO
C ll D fi iti P i ti C t t &Cell Definition Passivation Contacts &Buses
Stringing Lamination Finishing
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XunlightXunlight 25MW PECVD/ITO Line25MW PECVD/ITO LineXunlightXunlight 25MW PECVD/ITO Line25MW PECVD/ITO Line
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XunlightXunlight 25MW PECVD/ITO Line25MW PECVD/ITO LineXunlightXunlight 25MW PECVD/ITO Line25MW PECVD/ITO Line
9 PECVD deposition zones (nip-nip-nip);p ( p p p)each zone has single or multiple parallel plate electrodes, depending on deposition p p g prates and thicknesses1 sputter zone (ITO)p ( )Online QC capability200 feet in length200 feet in lengthCapable of running lengths up to 8000 f t tfeet nonstop36” wide substrate
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Schematic of a Combined Schematic of a Combined PECVD/ITO Roll to Roll LinePECVD/ITO Roll to Roll Line
Payout PECVD Section Differential ITO Section Online QC Takeup
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Differential Pressure DevicesDifferential Pressure DevicesDifferential Pressure DevicesDifferential Pressure Devices
1:1000 pressure ratios achievable while pallowing web to move freely, and allowing no significant cross-contaminationg
Application number: 12/535,237Publication number: US 2010/0029067 A1
Filing date: Aug 4, 2009
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Photo of Coated WebPhoto of Coated WebPhoto of Coated WebPhoto of Coated Web
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Back End IBack End IBack End IBack End I
SingulationgEdge DeleteShunt PassivationShunt Passivation
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Shunt PassivationShunt PassivationApparatus for lightApparatus for light--assisted shunt passivationassisted shunt passivation
Bias Voltage g2.5-3 V
Electrolyte
~1-30 seconds
Electrolyte, AlCl3
Light Source
Electrode
Shunt
Metal a-Si ITO (TCO)
nipnipnip
Mesh Electrode
•Combined Light and Electrical BiasCombined Light and Electrical Bias•Reduces unwanted conversion of TCO•Broadens process window
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Shunt PassivationShunt PassivationShunt PassivationShunt Passivation
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Shunt Shunt PassivationPassivationShunt Shunt PassivationPassivation
Efficiency before and after shunt passivationEfficiency before and after shunt passivationGD1196-2
10
12
6
8
10
icie
ncy
(%)
before
2
4
6
AM
1.5
Effi before
after
0
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19
Cell #
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Back End IIBack End IIBack End IIBack End II
Negative and Positive BusesgCurrent Collection GridBypass DiodesBypass DiodesStringingL i iLaminationTesting
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Efficiency ImprovementEfficiency ImprovementEfficiency ImprovementEfficiency ImprovementStabilized Power (XR36 Module)
300
320
340
260
280
P d ti f l
Best Modules as of early 2012 (315 W)
200
220
240Production as of early 2012 (300 W)
( )
160
180
200
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Reliability ChallengesReliability ChallengesReliability ChallengesReliability Challenges
Uncontrolled user environmentNot serviceableVery long lifetime expectation with Very long lifetime expectation with combination of sun, wind, water, high voltage heatvoltage, heat.
G d t N i tGood part: No moving parts
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Functions of PackageFunctions of PackageFunctions of PackageFunctions of Package
Let light through while protecting cells g g p gfrom environment (Light, UV, Heat, Water, Air, Mechanical).)Be stableProvide electrical insulation: 1000 V Provide electrical insulation: 1000 V continuous use.Be resistant to fireBe resistant to fireProvide a way to mount the moduleBe cheapReliability is a big part of LCOE
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Test Sequences for ComplianceTest Sequences for ComplianceTest Sequences for ComplianceTest Sequences for Compliance
UL 1703IEC 61646IEC 61730-1 and -2IEC 61730-1 and -2
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Package Considerations Example:Package Considerations Example:UV UV StabilityStability
EVA1 EVA1 EVA3 EVA3’ EVA4 EVA4’
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ReferencesReferencesReferencesReferences
TUDelft OCW Web Site◦ http://ocw.tudelft.nl/courses/microelectronics/
solar-cells/lectures/
Handbook of Photovoltaic Science and Engineering, Chapter on a-Si by Deng and g g p y gSchiffImages: AMAT/Voith/Hind High Images: AMAT/Voith/Hind High Vacuum/Google Image Searchwww xunlight com/products/installations/www.xunlight.com/products/installations/
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Thank YouThank YouThank You.Thank You.