Jens Hauch Konarka
Transcript of Jens Hauch Konarka
Creating Energy where there is light
Jens [email protected]
Product Development for Product Development for
Organic PhotovoltaicsOrganic Photovoltaics
2Creating Energy where there is light
Innovators at the Intersections Innovators at the Intersections
Printed ElectronicsOrganic Chemistry
Renewable Energy
Who is Konarka?Who is Konarka?
Printable lowPrintable low--costcost
Solar CellSolar Cell
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Solar
1 x 105 TW at Earth surface
10,000 TW (technical value)
Biomass
5-7 TW
Hydroelectric
1.2 TW technically feasible
0.6 TW installed capacityGeothermal
1.9 TW
Wind
14 TW
Tide/Ocean Currents0.7 TW
Energy gap~ 14 TW by 2050~ 33 TW by 2100
Source: Arthur Nozik
It´sabout T
Ws
Renewable Energy SupplyRenewable Energy Supply
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• Low Cost: low temperature, ambient conditions, no clean room, no silicon, lower energy footprint
• Scalable: coating or printing technology, utilization of existing capacity
• Continuous: roll-to-roll high-volume production
Developing Low Cost, Scalable PV Manufacturing Process
Manufacturing Manufacturing ParadigmParadigm
Consequence: Thin, lightweight, flexible PV Product.
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• Founded in 2001 as spin-out of UMass and University of CA
• Leading IP position with nearly 350 patents and global filings
• Strong 100+ person team with technical and industrial expertise
• $150+ private funding raised to-date, $20M government grants
• Global presence with staff in US, Germany, Austria, & China
Company OverviewCompany Overview
Nurnberg, Germany Linz, AustriaHeadquarters: Lowell, MA
ProductionNew Bedford, MA
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2006
2007
2008
Lab
PilotProduction
1kWatt
1MWatt
1GWatt
5 cm
25 cm
150 cm
Capacity UpscalingCapacity Upscaling
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• 250 to 1500 mm width
• No facing roll
• 100 feet / minute: 1GW per year potential
Production PlantProduction Plant
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BulkBulk HeterojunctionHeterojunction (OPV)(OPV)
Main components of the active layer:Semiconducting polymer and Fullerene
~200-500nmActive layer
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OPV Cell SchematicOPV Cell Schematic
Bulk Bulk HeterojunctionHeterojunction Polymer/FullerenePolymer/Fullerene
Light Absorber
Hole Carrier
Electron Carrier
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2
3
3 Key Functions
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Shifting Solar: Rooftop to AnywhereShifting Solar: Rooftop to Anywhere
Creating Energy where there is light
Minimum requirements for any Minimum requirements for any
PV technologyPV technology
Key Parameters are efficiency, lifetime and cost
The application decides which is the most important parameter.
Lifetime(3 - 5 years)
Efficiency(>3%)
Costs(<1 €/Wp)
Technical Requirements
A successful product must fulfill all 3 requirements:
Efficiency, Lifetime and Cost
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Device performanceCertified by NREL
2.003.00
4.00
5.00
6.00
7.00
8.00
2.00
1.00
9.00
10.00
11.00
2.8 2.4 2.0 1.6 1.2-3.0
-3.2
-3.4
-3.6
-3.8
-4.0
HOMO -4.8 eV
HOMO -5.8 eV
Band Gap [ eV ]
LU
MO
Leve
l D
onor
[ e
V ]
Max. device efficiency
requirements for newmaterials
6.39%
~0.8cm2
New materials drive efficiency
Efficiency Efficiency –– State of the ArtState of the Art
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0.0
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0.4
0.6
0.8
1.0
1.2
0 500 1000 1500 2000 2500 3000 3500 4000 4500Time Hours
No
rm.
Eff
. [a
.u.]
State of the art State of the art ––
ALT Production ModulesALT Production Modules
65°C/85%rh
Extrapolated LT > 8000hrs
Packaging FilmWVTR ~ 0.0001 g/m2/day
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State of the art State of the art ––
ALT Production ModulesALT Production Modules
65°C/1sun
Expected Lifetime > 3yrsOxygen permeation does not appear to be limiting packaged device lifetime
0.0
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0.8
1.0
1.2
0 500 1000 1500 2000 2500
Time [hours]
No
rm. E
ff. [a
.u.]
Packaging FilmOTR < 0.01 cc/m2/day
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Location Lowell, MA. Facing solar south at 42°≈1600 kWh / m2
Two measurement modes
a) Outdoor jV in 4th quadrant with
modulated load and wireless data
read out
b) Periodic characterization under
standard solar simulator
Rooftop TestingRooftop Testing
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0%
10%
20%
30%
40%
50%
60%
70%
80%
90%
100%
110%
Sep-08 Oct-08 Nov-08 Dec-08 Jan-09 Feb-09 Mar-09 Apr-09
No
rmalized
Po
wer
@ 1
Su
n
Outdoor TestingOutdoor Testing
Outdoor Degradation of Production Modules
200Days
WVTR=.07g/m2/day - Estimated Lifetime > 3yrs
Not tem
peratu
re
correcte
d!
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Still measuring device intalled two years ago with poor components
Outdoor TestingOutdoor Testing
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Power Plastic Standard ProductsPower Plastic Standard Products
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Standard Product Technical Spec. Sheets Available
¼ watt ½ watt 1 watt 2 watt 5 watt 8 watt 12 watt 26 watt
Power Plastic Standard ProductsPower Plastic Standard Products
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Shading elementsSolar Bags: Standard 2W
KT-3000 :
30 Watts
Semi-Transparent
Module
Rollable power supply
End User ProductsEnd User Products
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Acknowledgments Acknowledgments
A J Heeger and the “Center for Polymers and Organic Solids”, UCSB
The Konarka Technologies R&D team