Application of an A-A′-A-Containing Acceptor Polymer in Sequentially Deposited All-Polymer Solar Cells
Fang, Y., Jin H., Raynor A., Wang X., Shaw Paul E., Kopidakis N., McNeill C. R., and Burn P. L.
ACS Applied Materials and Interfaces, Volume
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10.1021/acsami.8b05875, (2018)
Efficient, large area ITO-and-PEDOT-free organic solar cell sub-modules
Jin, H., Tao C., Velusamy M., Aljada M., Zhang Y., Hambsch M., Burn P. L., and Meredith Paul
Advanced Materials, Volume
24
, Number 19, p.2572-2577, (2012)
Factors infl uencing the effi ciency of current collection in large area, monolithic organic solar cells
Jin, H., Pivrikas A., Lee K. H., Aljada M., Hambsch M., Burn P. L., and Meredith Paul
Advanced Energy Materials, Volume
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, Number 11, p.1338-1342, (2012)
Interface Engineering of Solution-Processed Hybrid Organohalide Perovskite Solar Cells
Zhang, S., Stolterfoht M., Armin A., Lin Q., Zu F., Sobus J., Jin H., Koch N., Meredith P., Burn P. L., et al.
ACS Applied Materials and Interfaces, Volume
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, Number 25, p.21681-21687,
10.1021/acsami.8b02503, (2018)
Large area monolithic organic solar cells
Burn, P. L., Zhang Y., Jin H., Meredith Paul, Aljada M., Velusamy M., Tao C., Hambsch M., and Pivrikas A.
SPIE Optics and Photonics, Volume
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Loss Mechanisms in Fullerene-Based Low-Donor Content Organic Solar Cells
Jiang, W., Jin H., Stolterfoht M., Shaw Paul E., Nagiri R. C. R., Kopidakis N., and Burn P. L.
Journal of Physical Chemistry C, Volume
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