Balthazar and Adrien’s paper on organic solar cells and fully printed super-capacitors optimized for indoor light energy harvesting got published in Nano Energy. Congrats!!!

Paper title: Organic solar cells and fully printed super-capacitors optimized for indoor light energy harvesting

Abstract: Flexibility, lightness and printability make organic solar cells (OSC) strong candidates to power low consumption devices such as envisioned for the Internet of Things. Such devices may be placed indoors, where light levels are well below typical outdoors level. Here, we demonstrate that maximizing the efficiency of OSC for indoor operation requires specific device optimization. In particular, minimizing the dark current of the solar cells is critical to enhance their efficiency under indoor light. Cells optimized for sunlight reach 6.2% power conversion efficiency (PCE). However when measured under simulated indoor light conditions, the PCE is to 5.2%. Cells optimized for indoor operation yield 7.6% of PCE under indoor conditions. As a proof-of-concept, the solar cells are combined with fully printed super-capacitors to form a photo-rechargeable system. Such a system with a 0.475 cm2 indoor-optimized solar cell achieved a total energy conversion and storage efficiency (ECSE) of 1.57% under 1-sun, providing 26 mJ of energy and 4.1 mW of maximum power. Under simulated indoor light the system yielded an ECSE of 2.9%, while delivering 13.3 mJ and 2.8 mW. Those energy and power levels would be sufficient to power low-consumption electronic devices with low duty cycles.

Publication:

  1. Organic solar cells and fully printed super-capacitors optimized for indoor light energy harvesting Balthazar P. Lechene, Martin Cowell, Adrien Pierre, James W. Evans, Paul K. Wright, and Ana C. Arias Nano Energy , 2016 26, . [Abstract] [Bibtex] [PDF]