Environmental Engineering Reference
In-Depth Information
107. Galagan Y, Zimmermann B, Coenen EWC, Jørgensen M, Tanenbaum DM, Krebs FC et al
(2012) Current collecting grids for ITO-free solar cells. Adv Energy Mater 2(1):103-110
108. Zou J, Yip H, Hau SK, Jen AK (2010) Metal grid/conducting polymer hybrid transparent
electrode for inverted polymer solar cells. Appl Phys Lett 96(20):203301
109. Zimmermann B, Glatthaar M, Niggemann M, Riede MK, Hinsch A, Gombert A (2007)
ITO-free wrap through organic solar cells: a module concept for cost-efficient reel-to-reel
production. Sol Energy Mater Sol Cells 91(5):374-378
110. Glatthaar M, Niggemann M, Zimmermann B, Lewer P, Riede M, Hinsch A et al (2005)
Organic solar cells using inverted layer sequence. Thin Solid Films 491(1-2):298-300
111. Zimmermann B, Schleiermacher HF, Niggemann M, Wuerfel U (2011) ITO-free flexible
inverted organic solar cell modules with high fill factor prepared by slot die coating. Sol
Energy Mater Sol Cells 95(7):1587-1589
112. Choi S, Potscavage WJ Jr, Kippelen B (2010) ITO-free large-area organic solar cells. Opt
Express 18(19):A458-A466
113. Kylberg W, de Castro FA, Chabrecek P, Sonderegger U, Chu BT, Nüesch F et al (2011)
Woven electrodes for flexible organic photovoltaic cells. Adv Mater 23(8):1015-1019
114. Galagan Y, Coenen EWC, Sabik S, Gorter HH, Barink M, Veenstra SC et al (2012)
Evaluation of ink-jet printed current collecting grids and busbars for ITO-free organic solar
cells. Sol Energy Mater Sol Cells 104:32-38
115. Yu J, Kim I, Kim J, Jo J, Larsen-Olsen TT, Søndergaard RR et al (2012) Silver front
electrode grids for ITO-free all printed polymer solar cells with embedded and raised
topographies, prepared by thermal imprint, flexographic and inkjet roll-to-roll processes.
Nanoscale 4:6032
116. Krebs FC (2009) All solution roll-to-roll processed polymer solar cells free from indium-
tin-oxide and vacuum coating steps. Org Electron 10(5):761-768
117. Manceau M, Angmo D, Jørgensen M, Krebs FC (2011) ITO-free flexible polymer solar
cells: from small model devices to roll-to-roll processed large modules. Org Electron
12(4):566-574
118. Krebs FC (2009) Roll-to-roll fabrication of monolithic large-area polymer solar cells free
from indium-tin-oxide. Sol Energy Mater Sol Cells 93(9):1636-1641
119. Krebs FC (2009) Fabrication and processing of polymer solar cells: a review of printing and
coating techniques. Sol Energy Mater Sol Cells 93(4):394-412
120. Angmo D, Gevorgyan SA, Larsen-Olsen TT, Søndergaard R, Hösel M, Jørgensen M et al
(2013) Scalability and stability of very thin, roll-to-roll processed, large-area, indium-tin-
oxide free polymer solar cells. Org Electron 14(3):984-994
121. Larsen-Olsen TT, Søndergaard RR, Norrman K, Jørgensen M, Krebs FC (2012) All printed
transparent electrodes through an electrical switching mechanism: a convincing alternative
to indium-tin-oxide, silver and vacuum. Energy Environ Sci 15:36-49
122. Sommer-Larsen P, Jørgensen M, Søndergaard RR, Hösel M, Krebs FC (2013) It is all in the
pattern-high-efficiency power extraction from polymer solar cells through high-voltage
serial connection. Energy Technol 1(1):15-19
123. Ellmer K (2012) Past achievements and future challenges in the development of optically
transparent electrodes. Nat Photonics 6(12):808
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