John F. Watts scite author profile

The highest power conversion efficiencies (PCEs) reported for perovskite solar cells (PSCs) with inverted planar structures are still inferior to those of PSCs with regular structures, mainly because of lower open-circuit voltages (). Here we report a strategy to reduce nonradiative recombination for the inverted devices, based on a simple solution-processed secondary growth technique. This approach produces a wider bandgap top layer and a more n-type perovskite film, which mitigates nonradiative recombination, leading to an increase in by up to 100 millivolts. We achieved a high of 1.21 volts without sacrificing photocurrent, corresponding to a voltage deficit of 0.41 volts at a bandgap of 1.62 electron volts. This improvement led to a stabilized power output approaching 21% at the maximum power point.

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An Introduction to Surface Analysis by XPS and AES

Watts¹,

Wolstenholme²

2003

570

427

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Surface modification of poly(vinylidene fluoride) by alkaline treatment1. The degradation mechanism

Ross

Watts

Hill

et al. 2000

Polymer

313

178

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Synthesis and aqueous solution properties of polyelectrolyte-grafted silica particles prepared by surface-initiated atom transfer radical polymerization

Chen

Randall

Perruchot

et al. 2003

Journal of Colloid and Interface Science

128

117

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XPS investigation of monatomic and cluster argon ion sputtering of tantalum pentoxide

Simpson

White

Watts

et al. 2017

Applied Surface Science

223

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John F. Watts

Enhanced photovoltage for inverted planar heterojunction perovskite solar cells

An Introduction to Surface Analysis by XPS and AES

Surface modification of poly(vinylidene fluoride) by alkaline treatment1. The degradation mechanism

Synthesis and aqueous solution properties of polyelectrolyte-grafted silica particles prepared by surface-initiated atom transfer radical polymerization

XPS investigation of monatomic and cluster argon ion sputtering of tantalum pentoxide

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