Industrial Production of Encapsulation Materials for Solar ... · © Fraunhofer S. Amberg -Schwab,...
Transcript of Industrial Production of Encapsulation Materials for Solar ... · © Fraunhofer S. Amberg -Schwab,...
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© Fraunhofer
S. Amberg-Schwab, U. Weber
Fraunhofer Institute for Silicate Research, Würzburg, Germany
Industrial Production of Encapsulation Materials for Solar Cells
“Development and Upscaling of Nanoscale Transparent Barrier Lacquers
based on Hybrid Polymers”
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Outline
1. Aim of flexible high-barrier material development
2. Multilayer approach for barrier materials
3. The POLO® concept
4. Latest results
5. Summary and future prospects
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Aim of flexible high-barrier material development
Organic electronic devices: sensitive to oxygen and moisture
Requirements Light-weight, flexibility, transparency Environmental resistancy Low-cost
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oxygen permeability
[cm3/m2dbar]
100 100
water vapor permeability
[g/m2d]
10-1 10-1
10-6
10-2
10-6
10-2
packaging films for food
inorganic solar cells
LCDs
OLEDs organic
solar cells
Barrier films for different applications
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Barrier properties of laminates and composite materials
Oxygen transmittance (DIN 53 380): 23°C, 50% r.h. Water vapor transmittance (DIN 53 122): 23°C, 85% r.h. to 0% r.h. (PVD: physical vapor deposition)
0,01
0,1
1
10
100
1000
0,01 0,1 1 10 100
BOPP/PE
PET-PEN/PE, laminates with SiOx (PVD)
PET/PE EVOH-laminates
PA/PE
PET/PVDC
PET/PE
WVTR [g/m² d]
aluminum-film-laminates
OTR
[cm
3 /m2 d
bar
]
WVTR [g/m2 d]
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barrier properties: 10-5 g/m2 d 10-5 cm3/m2 d bar
Multilayer approach for barrier materials PML®-Process, Vitex USA
Burrows,P.E. et al. MRS Spring Meeting 2002, Boston, USA
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Fraunhofer Alliance for Polymer Surfaces POLO®
Bremen IFAM
Potsdam IAP
Dresden FEP
Würzburg ISC
Freising IVV
Stuttgart IGB, IPA
Scale-up of processes IPA, Stuttgart Manufacturing Engin. Autom.
FEP, Dresden Electron Beam and Plasma Techn.
Institutes Know-How
deposition techniques, scale-up
IAP, Potsdam Applied Polymer Research
polymers, surface chemistry, Ca-mirror tests
IFAM, Bremen Manufacturing Technology and Applied Materials Research
adhesive bonding, plasma deposition
IGB, Stuttgart Interfacial Engineering and Biotechnology plasma deposition
ISC, Würzburg Silicate Research
inorganic-organic hybrid polymers (ORMOCER®s)
IVV, Freising Process Engin. and Packaging
Film production, lacquering and lamination, barrier measurements
www.polo.fraunhofer.de
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The POLO® concept High-barrier films
1 µm PET film
ORMOCER®
inorganic barrier layer (SiOx)
Inorganic vacuum deposited layers (evaporation, sputtering) in combination with thin barrier coatings based on hybrid polymers (ORMOCER®s) deposited by lacquering techniques Transmission electron micrograph of a thin hybrid polymer coating on SiOx deposited on a flexible PET film
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1 µm
inorganic barrier layer (SiOx)
PET film
ORMOCER®
The POLO® concept Ultra-barrier films
Inorganic vacuum deposited layers (evaporation, sputtering) in combination with thin barrier coatings based on hybrid polymers (ORMOCER®s) deposited by lacquering techniques
Inorganic vacuum deposited layers (evaporation, sputtering) in combination with thin barrier coatings based on hybrid polymers (ORMOCER®s) deposited by lacquering techniques Transmission electron micrograph of a thin hybrid polymer coating on SiOx deposited on a flexible PET film
SiOx layer
Source: Langowski, H.C., Fraunhofer IVV: (Ultra-) Barriers for Organic Electronic Applications; Lope-C Convention, Seminar 2009
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C. J. Brinker, G. W. Scherer, Sol-Gel Science, The Physics and Chemistry of Sol-Gel Processing, Academic Press, Inc., New York 1990.
solution of precursors
powder sol gel
coatings fibres
bulk
pm nm µm mm
Sol-gel processing: Wet chemistry for hybrid polymers
Main advantages: • low temperature process • high purity materials • transparent molecular composites (nanocomposites)
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(CH 2 ) n R’
joining segment
network modifier or
network former
photochemically or thermally induced curing for creating an
Si
RO
RO
RO
hydrolysis and condensation reactions for creating an
network former
inorganic network
sol-gel-process
organic network
Starting compounds Bifunctional silanes
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E = Al, Zr, Ti, ...
organic crosslinking
S i O O
O
E
S i O
O O
O O
O S O R
O S i i
Structural units of hybrid polymers
ORMOCER®s Trademark of Fraunhofer-Gesellschaft zur Förderung der angewandten Forschung e.V. in Germany
functional groups
hetero-atoms in inorganic structures
inorganic silicate network
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Development of new barrier coatings based on hybrid polymers Combined barrier properties 1. Polar permeants (water vapor) 2. Nonpolar permeants (gases, e. g. oxygen, flavors)
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Oxygen transmission rates (DIN 53 380) Hybrid polymer (5 µm) on a BOPP-film (30 µm) and on a SiOx-coated film (DIN 53 380; 23 °C, 50 % r.h.)
1600
0
500
1.000
1.500
2.000
BOPP
10
BOPP Hybrid polymer
BOPP SiOx
BOPP SiOx
Hybrid polymer
[cm³/m²*d*bar]
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polymer film
SiO x SiO x hybrid polymer
polymer- film
hybrid polymer
Compensation of defects always present in inorganic barrier layers Possible defect healing: vapor-borne + wet coating
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SiO x hybrid polymer polymer film
I
I
-Si-O-Si- I
I I
I
-Si O -Si
I
I I
I HO-Si- I
I
-Si-O-Si- I
I
I
I
-Si-OH I
I
-Si-O-Si- I
I I
I
RO-Si- I
I
-Si-OH
layer with increased
network density
Schematic plan of ideal interfacial bonding Covalent bondings at the interface
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polymer film
surface roughness polymer film
hybrid polymer
hybrid polymer
Hybrid polymer coating for planarizing the polymer film
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Schematic view of the lacquering unit and its clean room environment
Source: Fraunhofer IVV
Fabrication of barrier films Ultra-thin lacquering (IVV) Very thin closed layers need precise protection from dust particles
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thickness of hybrid polymer:
~ 20 nm
~ 20 nm
~ 950 nm
Ultra-thin hybrid polymer coatings Transmission electron micrograph
Source: IVV
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oxygen permeability
[cm3/m2dbar]
100 100
water vapor permeability
[g/m2d]
10-1 10-1
10-6
10-2
10-6
10-2
packaging films for food
inorganic solar cells
LCDs
OLEDs organic
solar cells
Barrier films for different applications
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Transfer of the barrier concept to the market Beside the barrier properties additional properties had to be achieved:
• lacquer components that are nonhazardous to health and environmentally friendly
• UV-stability
• sufficient stability of the lacquers during processing
• long shelf life of the lacquers, preferably without cooling
• R2R-processability under production conditions with reproducible and stable coating qualities
• stability in the damp-heat-test (85 °C / 85 % r. h.: 2000 hours)
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Break-through: Industrial production of low-cost encapsulation materials for inorganic solar cells at ISOVOLTAIC AG in Austria
Quelle: IVV
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oxygen permeability
[cm3/m2dbar]
100 100
water vapor permeability
[g/m2d]
10-1 10-1
10-6
10-2
10-6
10-2
packaging films for food
inorganic solar cells
LCDs
OLEDs organic
solar cells
Barrier films for different applications
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Pilot R2R production of barrier films Sandwich structure
Calculated for ambient conditions
(23 °C, 85 % rh; factor 2,8) 7x10-5 (g/m2 d)
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© Fraunhofer POLO
Pilot R2R production of barrier films Sandwich structure
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lamination adhesive
6 / 17
barrier film-2
barrier film-1
• mechanically robust process • higher mechanical stability • however, thicker structures
Pilot R2R production of barrier films Face-to-face adhesive lamination of barrier films
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active barrier
oxygen scavenger layer
barrier layer based on hybrid polymers
inorganic barrier layer
Future prospects: Combination of passive and active barriers
passive barrier
O2 O2 O2
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The POLO® concept for high- and ultra-barrier films
Hybrid polymers as barrier lacquers
Thank you very much for your kind attention
Promising barrier results and future prospects
Industrial production of low-cost encapsulation materials for inorganic solar cells